Corrigendum to Council Regulation (EU) 2026/759 Amending Iran Restrictive Measures

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Corrigendum to Council Regulation (EU) 2026/759 Amending Iran Restrictive Measures

EUR-Lex Restrictive Measures

Published April 23rd, 2026

Detected April 24th, 2026

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Summary

The Council of the European Union issued a corrigendum on 23 April 2026 to Council Regulation (EU) 2026/759 of 30 March 2026, which amended Regulation (EU) No 267/2012 concerning restrictive measures against Iran and repealed Regulation (EU) No 961/2010. The corrigendum corrects Article 2(2) and (3) of the amended regulation, updating the reference for dual-use goods and technology from the repealed Regulation (EC) No 428/2009 to Regulation (EU) 2021/821, while introducing exceptions for certain goods listed in Part A of Annex I. Additionally, the corrigendum adds a new procedural obligation requiring Member States to inform other Member States and the Commission within four weeks of any authorisations granted. The corrigendum re-affirms the re-imposition of EU nuclear-related sanctions on Iran following UN Security Council Resolution 2231 (2015).

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What changed

The corrigendum corrects Article 2(2) and (3) of Council Regulation (EU) 2026/759 (the amendment to Regulation (EU) No 267/2012). Article 2(2) is revised to cross-reference Regulation (EU) 2021/821 (the current EU dual-use regulation, which repealed the previously cited Regulation (EC) No 428/2009) for the definition of dual-use items, while preserving exceptions for certain goods specified in Part A of Annex I. Article 2(3) is amended to require Member States to notify other Member States and the Commission within four weeks of any authorisations granted under Regulation (EU) 2021/821 for goods specified in Part A of Annex I.

Parties affected by this corrigendum include exporters and importers of dual-use goods subject to Part A of Annex I restrictions, as well as manufacturers involved in related technology sectors. The correction ensures the regulatory reference to dual-use controls is current, as Regulation (EU) 2021/821 is the operative instrument setting out export, brokering, and transfer controls. The new four-week notification requirement introduces an additional procedural obligation for Member States processing certain dual-use export authorisations.

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Corrigendum to Council Regulation (EU) 2026/759 of 30 March 2026 amending Regulation (EU) No 267/2012 concerning restrictive measures against Iran and repealing Regulation (EU) No 961/2010 (OJ L, 2026/759, 31.3.2026)

OJ L, 2026/90314, 23.4.2026, ELI: http://data.europa.eu/eli/reg/2026/759/corrigendum/2026-04-23/oj (BG, ES, CS, DA, DE, ET, EL, EN, FR, GA, HR, IT, LV, LT, HU, MT, NL, PL, PT, RO, SK, SL, FI, SV)

ELI: http://data.europa.eu/eli/reg/2026/759/corrigendum/2026-04-23/oj

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| | Official Journal
of the European Union | EN

L series |

| | 2026/90314 | 23.4.2026 |
Corrigendum to Council Regulation (EU) 2026/759 of 30 March 2026 amending Regulation (EU) No 267/2012 concerning restrictive measures against Iran and repealing Regulation (EU) No 961/2010

(Official Journal of the European Union L, 2026/759, 31 March 2026)

Council Regulation (EU) 2026/759 should read as follows:

COUNCIL REGULATION (EU) 2026/759

of 30 March 2026

amending Regulation (EU) No 267/2012 concerning restrictive measures against Iran and repealing Regulation (EU) No 961/2010

THE COUNCIL OF THE EUROPEAN UNION,

Having regard to the Treaty on the Functioning of the European Union, and in particular Article 215 thereof,

Having regard to Council Decision (CFSP) 2026/762 of 30 March 2026 amending Decision 2010/413/CFSP concerning restrictive measures against Iran (1),

Having regard to the joint proposal of the High Representative of the Union for Foreign Affairs and Security Policy and of the European Commission,

Whereas:

| (1) | On 26 July 2010, the Council adopted Decision 2010/413/CFSP (2) and on 23 March 2012, the Council adopted Regulation (EU) No 267/2012 (3), concerning restrictive measures against Iran. |

| (2) | On 29 September 2025, following the re-imposition of the United Nations (UN) nuclear-related sanctions on Iran in line with United Nations Security Council (UNSC) Resolution 2231 (2015), the Council adopted Decision (CFSP) 2025/1972 (4) which amended Decision 2010/413/CFSP and re-imposed all Union nuclear-related sanctions on Iran that had been suspended or terminated under the Joint Comprehensive Plan of Action. |

| (3) | In particular, the Council decided to re-impose the prohibition on the direct or indirect supply, sale or transfer dual-use goods and technology listed in Annex I to Council Regulation (EC) No 428/2009 (5) for the use in, or benefit of, Iran. |

| (4) | On 20 May 2021, the Union adopted Regulation (EU) 2021/821 of the European Parliament and of the Council (6). That Regulation repealed Regulation (EC) No 428/2009. |

| (5) | Regulation (EU) No 267/2012 should therefore be amended accordingly, |
HAS ADOPTED THIS REGULATION:

Article 1

Regulation (EU) No 267/2012 is amended as follows:

| (1) | in Article 2, paragraphs 2 and 3 are replaced with the following:

‘2. Annex I shall include goods and technology, including software, which are dual-use items as defined in Regulation (EU) 2021/821 of the European Parliament and of the Council (*1), except for certain goods and technology as specified in part A of Annex I to this Regulation.

3. The Member State concerned shall inform the other Member States and the Commission, within four weeks, of authorisations granted in accordance with Regulation (EU) 2021/821, in respect of the goods and technology as specified in part A of Annex I to this Regulation.

(*1) Regulation (EU) 2021/821 of the European Parliament and of the Council of 20 May 2021 setting up a Union regime for the control of exports, brokering, technical assistance, transit and transfer of dual-use items (OJ L 206, 11.6.2021, p. 1, ELI: http://data.europa.eu/eli/reg/2021/821/oj).’;" |

| (2) | in Article 3 paragraph 2 is replaced with the following:

‘2. For all exports for which an authorisation is required under this Article, such authorisation shall be granted by the competent authorities of the Member State where the exporter is established and shall be in accordance with the detailed rules laid down in Article 14 of Regulation (EU) 2021/821. The authorisation shall be valid throughout the Union.’

; |

| (3) | the Annexes are amended in accordance with the Annex to this Regulation. |
Article 2

This Regulation shall enter into force on the day following that of its publication in the Official Journal of the European Union.

This Regulation shall be binding in its entirety and directly applicable in all Member States.

Done at Brussels, 30 March 2026.

For the Council

The President

M. PANAYIOTOU

ANNEX

The Annexes to Regulation (EC) No 267/2012 are amended as follows:

(1)

Annexes I to IIa are replaced by the following:

‘ANNEX I

Goods and technology referred to in Article 2(1), (2) and (4), Article 3(3), Article 5(1), Article 6, Article 8(4), Article 17(2) and Article 31(1)

This Annex comprises all goods and technology listed in Annex I to Regulation (EU) 2021/821, as defined therein, with the exception of those specified in Part A. The relevant prohibitions shall not apply to the execution until 1 January 2026 of contracts related to goods and technology specified in Part C concluded before 30 September 2025.

PART A

| | Description |
| 1. | “Information security” systems and equipment for final use for public telecommunication services and internet service providing or for the protection by the network operator of these services, including components necessary for operation, installation (including on-site installation), maintenance (checking), repair, overhaul and refurbishing services related to those systems and equipment as follows:

a.

Systems, equipment, application specific “electronic assemblies”, modules and integrated circuits for “information security” related to networks such as wifi, 2G, 3G, 4G or fixed networks (classical, ADSL or optic fibre), as follows, and components therefor specially designed for “information security”:

| N.B.: | For the control of Global Navigation Satellite Systems (GNSS) receiving equipment containing or employing decryption (i.e., GPS or GLONASS), see 7A005 of Annex I to Regulation (EU) 2021/821. |
1.

Designed or modified to use “cryptography” employing digital techniques performing any cryptographic function other than authentication or digital signature and having any of the following:

Technical Notes:

| 1. | Authentication and digital signature functions include their associated key management function. |

| 2. | Authentication includes all aspects of access control where there is no encryption of files or text except as directly related to the protection of passwords, Personal Identification Numbers (PINs) or similar data to prevent unauthorised access. |
3.

“Cryptography” does not include “fixed” data compression or coding techniques.

| Note | 1.a.1. includes equipment designed or modified to use “cryptography” employing analogue principles when implemented with digital techniques. |

| a. | A “symmetric algorithm” employing a key length in excess of 56 bits; or |
b.

An “asymmetric algorithm” where the security of the algorithm is based on any of the following:

| 1. | Factorisation of integers in excess of 512 bits (e.g., RSA); |

| 2. | Computation of discrete logarithms in a multiplicative group of a finite field of size greater than 512 bits (e.g., Diffie-Hellman over Z/pZ); or |

| 3. | Discrete logarithms in a group other than mentioned in 1.a.1.b.2. in excess of 112 bits

(e.g., Diffie-Hellman over an elliptic curve); | | N.B.: | For the control of Global Navigation Satellite Systems (GNSS) receiving equipment containing or employing decryption (i.e., GPS or GLONASS), see 7A005 of Annex I to Regulation (EU) 2021/821. | 1. | Authentication and digital signature functions include their associated key management function. | 2. | Authentication includes all aspects of access control where there is no encryption of files or text except as directly related to the protection of passwords, Personal Identification Numbers (PINs) or similar data to prevent unauthorised access. | Note | 1.a.1. includes equipment designed or modified to use “cryptography” employing analogue principles when implemented with digital techniques. | a. | A “symmetric algorithm” employing a key length in excess of 56 bits; or | 1. | Factorisation of integers in excess of 512 bits (e.g., RSA); | 2. | Computation of discrete logarithms in a multiplicative group of a finite field of size greater than 512 bits (e.g., Diffie-Hellman over Z/pZ); or | 3. | Discrete logarithms in a group other than mentioned in 1.a.1.b.2. in excess of 112 bits

(e.g., Diffie-Hellman over an elliptic curve); |

(e.g., Diffie-Hellman over an elliptic curve); |
| 2. | “Software” as follows, for final use for public telecommunication services, internet service providing or for the protection by the network operator of these services:

| a. | “Software” specially designed or modified for the “use” of equipment specified in 1.a.1 or “software” specified in 2.b.1; |
b.

Specific “software”, as follows:

| 1. | “Software” having the characteristics, or performing or simulating the functions of the equipment, specified in 5A002.a.1; | | a. | “Software” specially designed or modified for the “use” of equipment specified in 1.a.1 or “software” specified in 2.b.1; | 1. | “Software” having the characteristics, or performing or simulating the functions of the equipment, specified in 5A002.a.1; |
| 1. | “Software” having the characteristics, or performing or simulating the functions of the equipment, specified in 5A002.a.1; |
| 3. | “Technology” according to the General Technology Note for the “use” of equipment specified in 1.a.1 or “software” specified in 2.a. or 2.b.1 of this list, for final use for public telecommunication services and internet service providing or for the protection by the network operator of these services. |
PART B

Article 6 applies to the following goods:

| a. | “Nuclear reactors”; |

| b. | Metal vessels, or major shop-fabricated parts therefor, including the reactor vessel head for a reactor pressure vessel, specially designed or prepared to contain the core of a “nuclear reactor”; |

| c. | Manipulative equipment specially designed or prepared for inserting or removing fuel in a “nuclear reactor”; |

| d. | Control rods specially designed or prepared for the control of the fission process in a “nuclear reactor”, support or suspension structures therefor, rod drive mechanisms and rod guide tubes; |

| e. | Pressure tubes specially designed or prepared to contain both fuel elements and the primary coolant in a “nuclear reactor”; |
f.

Zirconium metal tubes or zirconium alloy tubes (or assembles of tubes) specially designed or prepared for use as fuel cladding in a “nuclear reactor”, and in quantities exceeding 10 kg;

| N.B. | For zirconium pressure tubes see 0A001.e. and for calandria tubes see 0A001.h. |

| g. | Coolant pumps specially designed or prepared for circulating the primary coolant of “nuclear reactors”; |
h.

“Nuclear reactor internals” specially designed or prepared for use in a “nuclear reactor”, including support columns for the core, fuel channels, thermal shields, baffles, core grid plates, and diffuser plates;

| Note: | In 0A001.h. “nuclear reactor internals” means any major structure within a reactor vessel which has one or more functions such as supporting the core, maintaining fuel alignment, directing primary coolant flow, providing radiation shields for the reactor vessel, and guiding in-core instrumentation. |
i.

Heat exchangers as follows:

| 1. | Steam generators specially designed or prepared for the primary, or intermediate, coolant circuit of a “nuclear reactor”; |

| 2. | Other heat exchangers specially designed or prepared for use in the primary coolant circuit of a “nuclear reactor”; |

| Note: | 0A001.i. does not control heat exchangers for the supporting systems of the reactor, e.g., the emergency cooling system or the decay heat cooling system. |

| j. | Neutron detectors specially designed or prepared for determining neutron flux levels within the core of a “nuclear reactor”; or |

| k. | “External thermal shields” specially designed or prepared for use in a “nuclear reactor” for the reduction of heat loss and also for the containment vessel protection. |
Technical Note:

In 0A001.k. “external thermal shields” means major structures placed over the reactor vessel which reduce heat loss from the reactor and reduce temperature within the containment vessel. | a. | “Nuclear reactors”; | b. | Metal vessels, or major shop-fabricated parts therefor, including the reactor vessel head for a reactor pressure vessel, specially designed or prepared to contain the core of a “nuclear reactor”; | c. | Manipulative equipment specially designed or prepared for inserting or removing fuel in a “nuclear reactor”; | d. | Control rods specially designed or prepared for the control of the fission process in a “nuclear reactor”, support or suspension structures therefor, rod drive mechanisms and rod guide tubes; | e. | Pressure tubes specially designed or prepared to contain both fuel elements and the primary coolant in a “nuclear reactor”; | N.B. | For zirconium pressure tubes see 0A001.e. and for calandria tubes see 0A001.h. | g. | Coolant pumps specially designed or prepared for circulating the primary coolant of “nuclear reactors”; | Note: | In 0A001.h. “nuclear reactor internals” means any major structure within a reactor vessel which has one or more functions such as supporting the core, maintaining fuel alignment, directing primary coolant flow, providing radiation shields for the reactor vessel, and guiding in-core instrumentation. | 1. | Steam generators specially designed or prepared for the primary, or intermediate, coolant circuit of a “nuclear reactor”; | 2. | Other heat exchangers specially designed or prepared for use in the primary coolant circuit of a “nuclear reactor”; | Note: | 0A001.i. does not control heat exchangers for the supporting systems of the reactor, e.g., the emergency cooling system or the decay heat cooling system. | j. | Neutron detectors specially designed or prepared for determining neutron flux levels within the core of a “nuclear reactor”; or | k. | “External thermal shields” specially designed or prepared for use in a “nuclear reactor” for the reduction of heat loss and also for the containment vessel protection. |
| a. | “Nuclear reactors”; |
| 0C002 | Low enriched uranium covered by 0C002 when it is incorporated in assembled nuclear fuels elements. |
PART C

a.

Systems, equipment, application specific “electronic assemblies”, modules and integrated circuits for “information security”, as follows and other specially designed components therefor:

| N.B.: | For the control of Global Navigation Satellite Systems (GNSS) receiving equipment containing or employing decryption (i.e., GPS or GLONASS), see 7A005. |
1.

Designed or modified to use “cryptography” employing digital techniques performing any cryptographic function other than authentication or digital signature and having any of the following:

Technical Notes:

3.

“Cryptography” does not include “fixed” data compression or coding techniques.

| Note: | 5A002.a.1. includes equipment designed or modified to use “cryptography” employing analogue principles when implemented with digital techniques. |

| a. | A “symmetric algorithm” employing a key length in excess of 56 bits; or |
b.

An “asymmetric algorithm” where the security of the algorithm is based on any of the following:

| 3. | Discrete logarithms in a group other than mentioned in 5A002.a.1.b.2. in excess of 112 bits (e.g., Diffie-Hellman over an elliptic curve); | | N.B.: | For the control of Global Navigation Satellite Systems (GNSS) receiving equipment containing or employing decryption (i.e., GPS or GLONASS), see 7A005. | 1. | Authentication and digital signature functions include their associated key management function. | 2. | Authentication includes all aspects of access control where there is no encryption of files or text except as directly related to the protection of passwords, Personal Identification Numbers (PINs) or similar data to prevent unauthorised access. | Note: | 5A002.a.1. includes equipment designed or modified to use “cryptography” employing analogue principles when implemented with digital techniques. | a. | A “symmetric algorithm” employing a key length in excess of 56 bits; or | 1. | Factorisation of integers in excess of 512 bits (e.g., RSA); | 2. | Computation of discrete logarithms in a multiplicative group of a finite field of size greater than 512 bits (e.g., Diffie-Hellman over Z/pZ); or | 3. | Discrete logarithms in a group other than mentioned in 5A002.a.1.b.2. in excess of 112 bits (e.g., Diffie-Hellman over an elliptic curve); |
| 3. | Discrete logarithms in a group other than mentioned in 5A002.a.1.b.2. in excess of 112 bits (e.g., Diffie-Hellman over an elliptic curve); |
| 5D002 | “Software” as follows:

| a. | “Software” specially designed or modified for the “use” of equipment specified in 5A002.a.1 or “software” specified in 5D002.c.1; |
c.

Specific “software”, as follows:

1.

“Software” having the characteristics, or performing or simulating the functions of the equipment, specified in 5A002.a.1;

Note:

5D002 does not control “software” as follows:
| a. | “Software” required for the “use” of equipment excluded from control by the Note to 5A002; |

| b. | “Software” providing any of the functions of equipment excluded from control by the Note to 5A002. | | a. | “Software” specially designed or modified for the “use” of equipment specified in 5A002.a.1 or “software” specified in 5D002.c.1; | a. | “Software” required for the “use” of equipment excluded from control by the Note to 5A002; | b. | “Software” providing any of the functions of equipment excluded from control by the Note to 5A002. |
| b. | “Software” providing any of the functions of equipment excluded from control by the Note to 5A002. |
| 5E002 | “Technology” according to the General Technology Note for the “use” of equipment specified in 5A002.a.1 or “software” specified in 5D002.a. or 5D002.c.1 of this list. |
ANNEX II

Goods and technology referred to in Article 2(1), Article 2(2) and 2(4), Article 3(3), Article 5(1), Article 8(4), Article 17(2), Article 31(1) and Article 45

INTRODUCTORY NOTES

| | 1. | Unless otherwise stated, reference numbers used in the column entitled “Description” refer to the descriptions of dual-use items and technology set out in Annex I to Regulation (EU) 2021/821. |

| | 2. | A reference number in the column entitled “Related item from Annex I to Regulation (EU) 2021/821” means that the characteristics of the item described in the column “Description” lie outside the parameters set out in the description of the dual-use entry referred to. |

| | 3. | Definitions of terms between ‘single quotation marks’ are given in a technical note to the relevant item. |

| | 4. | Definitions of terms between “double quotation marks” can be found in Annex I to Regulation (EU) 2021/821. |
GENERAL NOTES

| | 1. | The object of the prohibitions contained in this Annex should not be defeated by the export of any non-prohibited goods (including plant) containing one or more prohibited components when the prohibited component or components are the principal element of the goods and can feasibly be removed or used for other purposes.
| N.B.: | In judging whether the prohibited component or components are to be considered the principal element, it is necessary to weigh the factors of quantity, value and technological know-how involved and other special circumstances which might establish the prohibited component or components as the principal element of the goods being procured. | | N.B.: | In judging whether the prohibited component or components are to be considered the principal element, it is necessary to weigh the factors of quantity, value and technological know-how involved and other special circumstances which might establish the prohibited component or components as the principal element of the goods being procured. |
| N.B.: | In judging whether the prohibited component or components are to be considered the principal element, it is necessary to weigh the factors of quantity, value and technological know-how involved and other special circumstances which might establish the prohibited component or components as the principal element of the goods being procured. |

| | 2. | The goods specified in this Annex include both new and used goods. |
GENERAL TECHNOLOGY NOTE (GTN)

| | 1. | The sale, supply, transfer or export of “technology” which is “required” for the “development”, “production” or “use” of goods the sale, supply, transfer or export of which is prohibited in Part A (Goods) below, is prohibited in accordance with the provisions of Section II.B. |

| | 2. | The sale, supply, transfer or export of “technology” which is “required” for the “development” or “production” of goods the sale, supply, transfer or export of which is controlled in Part A (Goods) of Annex IIa, is prohibited in accordance with the provisions of Section II.B. |

| | 3. | The “technology” “required” for the “development”, “production” or “use” of prohibited goods remains under prohibition even when applicable to non-prohibited goods. |

| | 4. | Prohibitions do not apply to that “technology” which is the minimum necessary for the installation, operation, maintenance (checking) and repair of those goods which are not prohibited or the export of which has been authorised in accordance with Regulation (EC) No 423/2007, Regulation (EU) No 961/2010 or this Regulation. |

| | 5. | Prohibitions on “technology” transfer do not apply to information “in the public domain”, to “basic scientific research” or to the minimum necessary information for patent applications. |
II.A. GOODS

| | A0. | Nuclear Materials, Facilities, and Equipment | A0. | Nuclear Materials, Facilities, and Equipment |
| A0. | Nuclear Materials, Facilities, and Equipment |
| No | Description | Related item from Annex I to Regulation (EU) 2021/821 |
| II.A0.001 | Hollow cathode lamps as follows:

| a. | Iodine hollow cathode lamps with windows in pure silicon or quartz; or |

| b. | Uranium hollow cathode lamps. | | a. | Iodine hollow cathode lamps with windows in pure silicon or quartz; or | b. | Uranium hollow cathode lamps. | — |
| b. | Uranium hollow cathode lamps. |
| II.A0.002 | Faraday isolators in the wavelength range 500 nm – 650 nm. | — |
| II.A0.003 | Optical gratings in the wavelength range 500 nm – 650 nm. | — |
| II.A0.004 | Optical fibres in the wavelength range 500 nm – 650 nm coated with anti-reflecting layers in the wavelength range 500 nm – 650 nm and having a core diameter greater than 0,4 mm but not exceeding 2 mm | — |
| II.A0.005 | Nuclear reactor vessel components and testing equipment, other than those specified in 0A001, as follows:

| a. | Seals; |

| b. | Internal components; or |

| c. | Sealing, testing and measurement equipment. | | a. | Seals; | b. | Internal components; or | c. | Sealing, testing and measurement equipment. | 0A001 |
| a. | Seals; |
| b. | Internal components; or |
| c. | Sealing, testing and measurement equipment. |
| II.A0.006 | Nuclear detection systems for detection, identification or quantification of radioactive materials and radiation of nuclear origin and specially designed components thereof other than those specified in 0A001.j. or 1A004.c. | 0A001.j

1A004.c |
| II.A0.007 | Bellows-sealed valves made of aluminium alloy or stainless steel type 304, 304L or 316L.

2A226 |
| Note: | This item does not cover bellow valves defined in 0B001.c.6 and 2A226. |
| II.A0.008 | Laser mirrors, other than those specified in 6A005.e, consisting of substrates having a thermal expansion coefficient of 10 -6 K -1 or less at 20 o C (e.g. fused silica or sapphire).

| Note: | This item does not cover optical systems specially designed for astronomical applications, except if the mirrors contain fused silica. | | Note: | This item does not cover optical systems specially designed for astronomical applications, except if the mirrors contain fused silica. | 0B001.g.5,

6A005.e |
| Note: | This item does not cover optical systems specially designed for astronomical applications, except if the mirrors contain fused silica. |
| II.A0.009 | Laser lenses, other than those specified in 6A005.e.2, consisting of substrates having a thermal expansion coefficient of 10 -6 K -1 or less at 20 o C (e.g. fused silica). | 0B001.g,

6A005.e.2 |
| II.A0.010 | Pipes, piping, flanges, fittings made of, or lined with, nickel or nickel alloy containing more than 40 % nickel by weight, other than those specified in 2B350.h.1. | 2B350 |
| II.A0.011 | Vacuum pumps other than those specified in 0B002.f.2 or 2B231, as follows:

| a. | Turbomolecular pumps having a flowrate equal to or greater than 400 l/s; |

| b. | Roots type vacuum roughing pumps having a volumetric aspiration flowrate greater than 200 m 3 /h; or |

| c. | Bellows-sealed, scroll, dry compressor, and bellows-sealed, scroll, dry vacuum pumps. | | a. | Turbomolecular pumps having a flowrate equal to or greater than 400 l/s; | b. | Roots type vacuum roughing pumps having a volumetric aspiration flowrate greater than 200 m 3 /h; or | c. | Bellows-sealed, scroll, dry compressor, and bellows-sealed, scroll, dry vacuum pumps. | 0B002.f.2,

2B231 |
| c. | Bellows-sealed, scroll, dry compressor, and bellows-sealed, scroll, dry vacuum pumps. |
| II.A0.012 | Shielded enclosures for the manipulation, storage and handling of radioactive substances (Hot cells). | 0B006 |
| II.A0.013 | “Natural uranium” or “depleted uranium” or thorium in the form of metal, alloy, chemical compound or concentrate and any other material containing one or more of the foregoing, other than those specified in 0C001. | 0C001 |
| II.A0.014 | Detonation chambers having a capacity of explosion absorption of more than 2,5 kg TNT equivalent. | — |

| | A1. | Materials, chemicals, ‘microorganisms’ and ‘toxins’ | A1. | Materials, chemicals, ‘microorganisms’ and ‘toxins’ |
| A1. | Materials, chemicals, ‘microorganisms’ and ‘toxins’ |
| II.A1.001 | Bis (2-ethylhexyl) phosphoric acid (HDEHP or D2HPA) (CAS 298-07-7) solvent in any quantity, with a purity greater than 90 %. | — |
| II.A1.002 | Fluorine gas (CAS 7782-41-4), with a purity of at least 95 %. | — |
| II.A1.005 | Electrolytic cells for fluorine production with an output capacity greater than 100 g of fluorine per hour.

| Note: | This item does not cover electrolytic cells defined in item 1B225. | | Note: | This item does not cover electrolytic cells defined in item 1B225. | 1B225 |
| Note: | This item does not cover electrolytic cells defined in item 1B225. |
| II.A1.006 | Catalysts, other than those prohibited by 1A225, containing platinum, palladium or rhodium, usable for promoting the hydrogen isotope exchange reaction between hydrogen and water for the recovery of tritium from heavy water or for the production of heavy water. | 1B231,

1A225 |
| II.A1.007 | Aluminium and its alloys, other than those specified in 1C002.b.4 or 1C202.a, in crude or semi-fabricated form having either of the following characteristics:

| a. | Capable of an ultimate tensile strength of 460 MPa or more at 293 K (20 o C); or |

| b. | Having a tensile strength of 415 MPa or more at 298 K (25 o C). | | a. | Capable of an ultimate tensile strength of 460 MPa or more at 293 K (20 o C); or | b. | Having a tensile strength of 415 MPa or more at 298 K (25 o C). | 1C002.b.4, |
| b. | Having a tensile strength of 415 MPa or more at 298 K (25 o C). |
| 1C202.a

II.A1.008 | Magnetic metals, of all types and of whatever form, having an initial relative permeability of 120 000 or more and a thickness between 0,05 and 0,1 mm. | 1C003.a |
| II.A1.009 | ‘Fibrous or filamentary materials’ or prepregs, as follows:

| N.B. | see also II.A1.019.a. |
a.

Carbon or aramid ‘fibrous or filamentary materials’ having either of the following characteristics:

| 1. | A ‘specific modulus’ exceeding 10 × 10 6 m; or |

| 2. | A ‘specific tensile strength’ exceeding 17 × 10 4 m; |
b.

Glass ‘fibrous or filamentary materials’ having either of the following characteristics:

| 1. | A ‘specific modulus’ exceeding 3,18 × 10 6 m; or |

| 2. | A ‘specific tensile strength’ exceeding 76,2 × 10 3 m; |

| c. | Thermoset resin-impregnated continuous “yarns”, “rovings”, “tows” or ‘tapes’ with a width of 15 mm or less (once prepregs), made from carbon or glass ‘fibrous or filamentary materials’ other than those specified in II.A1.010.a. or b. |

| Note: | This item does not cover ‘fibrous or filamentary materials’ defined in items 1C010.a, 1C010.b, 1C210.a and 1C210.b. | | N.B. | see also II.A1.019.a. | 1. | A ‘specific modulus’ exceeding 10 × 10 6 m; or | 2. | A ‘specific tensile strength’ exceeding 17 × 10 4 m; | 1. | A ‘specific modulus’ exceeding 3,18 × 10 6 m; or | 2. | A ‘specific tensile strength’ exceeding 76,2 × 10 3 m; | c. | Thermoset resin-impregnated continuous “yarns”, “rovings”, “tows” or ‘tapes’ with a width of 15 mm or less (once prepregs), made from carbon or glass ‘fibrous or filamentary materials’ other than those specified in II.A1.010.a. or b. | Note: | This item does not cover ‘fibrous or filamentary materials’ defined in items 1C010.a, 1C010.b, 1C210.a and 1C210.b. | 1C010.a

1C010.b

1C210.a

1C210.b |
| N.B. | see also II.A1.019.a. |
| Note: | This item does not cover ‘fibrous or filamentary materials’ defined in items 1C010.a, 1C010.b, 1C210.a and 1C210.b. |
| II.A1.010 | Resin-impregnated or pitch-impregnated fibres (prepregs), metal or carbon-coated fibres (preforms) or ‘carbon fibre preforms’, as follows:

| a. | Made from ‘fibrous or filamentary materials’ specified in II.A1.009 above; |

| b. | Epoxy resin ‘matrix’ impregnated carbon ‘fibrous or filamentary materials’ (prepregs), specified in 1C010.a, 1C010.b or 1C010.c, for the repair of aircraft structures or laminates, of which the size of individual sheets does not exceed 50 cm × 90 cm; |

| c. | Prepregs specified in 1C010.a, 1C010.b or 1C010.c, when impregnated with phenolic or epoxy resins having a glass transition temperature (Tg) less than 433 K (160 o C) and a cure temperature lower than the glass transition temperature. |

| Note: | This item does not cover ‘fibrous or filamentary materials’ defined in item 1C010.e. | | a. | Made from ‘fibrous or filamentary materials’ specified in II.A1.009 above; | b. | Epoxy resin ‘matrix’ impregnated carbon ‘fibrous or filamentary materials’ (prepregs), specified in 1C010.a, 1C010.b or 1C010.c, for the repair of aircraft structures or laminates, of which the size of individual sheets does not exceed 50 cm × 90 cm; | c. | Prepregs specified in 1C010.a, 1C010.b or 1C010.c, when impregnated with phenolic or epoxy resins having a glass transition temperature (Tg) less than 433 K (160 o C) and a cure temperature lower than the glass transition temperature. | Note: | This item does not cover ‘fibrous or filamentary materials’ defined in item 1C010.e. | 1C010.e.

1C210 |
| Note: | This item does not cover ‘fibrous or filamentary materials’ defined in item 1C010.e. |
| II.A1.011 | Reinforced silicon carbide ceramic composites usable for nose tips, re-entry vehicles, nozzle flaps, usable in “missiles”, other than those specified in 1C107. | 1C107 |
| II.A1.012 | Maraging steels, other than those specified in 1C116 or 1C216, ‘capable of’ an ultimate tensile strength of 2 050 MPa or more, at 293 K (20 o C).

Technical Note:

The phrase ‘maraging steel capable of’ encompasses maraging steel before or after heat treatment. | 1C216 |
| II.A1.013 | Tungsten, tantalum, tungsten carbide, tantalum carbide and alloys, having both of the following characteristics:

| a. | In forms having a hollow cylindrical or spherical symmetry (including cylinder segments) with an inside diameter between 50 mm and 300 mm; and |

| b. | A mass greater than 5 kg. |

| Note: | This item does not cover tungsten, tungsten carbide and alloys defined in item 1C226. | | a. | In forms having a hollow cylindrical or spherical symmetry (including cylinder segments) with an inside diameter between 50 mm and 300 mm; and | b. | A mass greater than 5 kg. | Note: | This item does not cover tungsten, tungsten carbide and alloys defined in item 1C226. | 1C226 |
| b. | A mass greater than 5 kg. |
| Note: | This item does not cover tungsten, tungsten carbide and alloys defined in item 1C226. |
| II.A1.014 | Elemental powders of cobalt, neodymium or samarium or alloys or mixtures thereof containing at least 20 % by weight of cobalt, neodymium or samarium, with a particle size less than 200 μm. | — |
| II.A1.015 | Pure tributyl phosphate (TBP) (CAS No 126-73-8) or any mixture having a TBP content of more than 5 % by weight. | — |
| II.A1.016 | ‘Maraging steel’, other than those prohibited by 1C116, 1C216 or II.A1.012

Technical Note:

‘Maraging steels’ are iron alloys generally characterised by high nickel, very low carbon content and the use of substitutional elements or precipitates to produce strengthening and age-hardening of the alloy. | — |
| II.A1.017 | Metals, metal powders and material as follows:

| a. | Tungsten and tungsten alloys, other than those prohibited by 1C117, in the form of uniform spherical or atomized particles of 500 μm diameter or less with a tungsten content of 97 % by weight or more; |

| b. | Molybdenum and molybdenum alloys, other than those prohibited by 1C117, in the form of uniform spherical or atomized particles of 500 μm diameter or less with a molybdenum content of 97 % by weight or more; or |
c.

Tungsten materials in the solid form, other than those prohibited by 1C226, or II.A1.013 having material compositions as follows:

| 1. | Tungsten and alloys containing 97 % by weight or more of tungsten; |

| 2. | Copper infiltrated tungsten containing 80 % by weight or more of tungsten; or |

| 3. | Silver infiltrated tungsten containing 80 % by weight or more of tungsten. | | a. | Tungsten and tungsten alloys, other than those prohibited by 1C117, in the form of uniform spherical or atomized particles of 500 μm diameter or less with a tungsten content of 97 % by weight or more; | b. | Molybdenum and molybdenum alloys, other than those prohibited by 1C117, in the form of uniform spherical or atomized particles of 500 μm diameter or less with a molybdenum content of 97 % by weight or more; or | 1. | Tungsten and alloys containing 97 % by weight or more of tungsten; | 2. | Copper infiltrated tungsten containing 80 % by weight or more of tungsten; or | 3. | Silver infiltrated tungsten containing 80 % by weight or more of tungsten. | — |
| 3. | Silver infiltrated tungsten containing 80 % by weight or more of tungsten. |
| II.A1.018 | Soft magnetic alloys having a chemical composition as follows:

| a. | Iron content between 30 % and 60 %; or |

| b. | Cobalt content between 40 % and 60 %. | | a. | Iron content between 30 % and 60 %; or | b. | Cobalt content between 40 % and 60 %. | — |
| a. | Iron content between 30 % and 60 %; or |
| b. | Cobalt content between 40 % and 60 %. |
| II.A1.019 | “Fibrous or filamentary materials” or prepregs, not prohibited by Annex I or by Annex II (under II.A1.009, II.A1.010) of this Regulation, or not specified by Annex I of Regulation (EU) 2021/821, as follows:

a.

Carbon “fibrous or filamentary materials”;

| Note: | II.A1.019a. does not cover fabrics. |

| b. | Thermoset resin-impregnated continuous “yarns”, “rovings”, “tows”, or “tapes”, made from carbon “fibrous or filamentary materials”; or |

| | A2. | Materials Processing | A2. | Materials Processing |
| A2. | Materials Processing |
| II.A2.001 | Vibration test systems, equipment and components thereof, other than those specified in 2B116:

| a. | Vibration test systems employing feedback or closed loop techniques and incorporating a digital controller, capable of vibrating a system at an acceleration equal to or greater than 0,1 g rms between 0,1 Hz and 2 kHz and imparting forces equal to or greater than 50 kN, measured ‘bare table’;

Technical Note:

‘Vibration test systems incorporating a digital controller’ are those systems, the functions of which are, partly or entirely, automatically controlled by stored and digitally coded electrical signals. |

| b. | Digital controllers, combined with specially designed vibration test ‘software’, with a real-time bandwidth greater than 5 kHz designed for use with vibration test systems specified in 2B116.a.;

Technical Note:

‘Real-time control bandwidth’ means the maximum rate at which a controller can execute complete cycles of sampling, processing data and transmitting control signals. |

| c. | Vibration thrusters (shaker units), with or without associated amplifiers, capable of imparting a force equal to or greater than 50 kN, measured ‘bare table’, and usable in vibration test systems specified in 2B116.a.; or |

| d. | Test piece support structures and electronic units designed to combine multiple shaker units in a system capable of providing an effective combined force equal to or greater than 50 kN, measured ‘bare table’, and usable in vibration systems specified in 2B116.a.

Technical Note:

‘Bare table’ means a flat table, or surface, with no fixture or fittings. | | a. | Vibration test systems employing feedback or closed loop techniques and incorporating a digital controller, capable of vibrating a system at an acceleration equal to or greater than 0,1 g rms between 0,1 Hz and 2 kHz and imparting forces equal to or greater than 50 kN, measured ‘bare table’;

Technical Note:

‘Vibration test systems incorporating a digital controller’ are those systems, the functions of which are, partly or entirely, automatically controlled by stored and digitally coded electrical signals. | b. | Digital controllers, combined with specially designed vibration test ‘software’, with a real-time bandwidth greater than 5 kHz designed for use with vibration test systems specified in 2B116.a.;

Technical Note:

‘Real-time control bandwidth’ means the maximum rate at which a controller can execute complete cycles of sampling, processing data and transmitting control signals. | c. | Vibration thrusters (shaker units), with or without associated amplifiers, capable of imparting a force equal to or greater than 50 kN, measured ‘bare table’, and usable in vibration test systems specified in 2B116.a.; or | d. | Test piece support structures and electronic units designed to combine multiple shaker units in a system capable of providing an effective combined force equal to or greater than 50 kN, measured ‘bare table’, and usable in vibration systems specified in 2B116.a.

Technical Note:

‘Bare table’ means a flat table, or surface, with no fixture or fittings. | 2B116 |

Technical Note:

‘Vibration test systems incorporating a digital controller’ are those systems, the functions of which are, partly or entirely, automatically controlled by stored and digitally coded electrical signals. |

Technical Note:

‘Real-time control bandwidth’ means the maximum rate at which a controller can execute complete cycles of sampling, processing data and transmitting control signals. |

Technical Note:

‘Bare table’ means a flat table, or surface, with no fixture or fittings. |
| II.A2.002 | Machine tools and components and numerical controls for machine tools, as follows:

a.

Machine tools for grinding having positioning accuracies with “all compensations available” equal to or less (better) than 15 μm according to ISO 230/2 (1988) or national equivalents along any linear axis;

| Note: | This item does not cover machine tools for grinding defined in items 2B201.b and 2B001.c. |

| b. | Components and numerical controls, specially designed for machine tools specified in 2B001, 2B201, or under a. | | Note: | This item does not cover machine tools for grinding defined in items 2B201.b and 2B001.c. | b. | Components and numerical controls, specially designed for machine tools specified in 2B001, 2B201, or under a. | 2B201.b

2B001.c |
| b. | Components and numerical controls, specially designed for machine tools specified in 2B001, 2B201, or under a. |
| II.A2.003 | Balancing machines and related equipment as follows:

a.

Balancing machines, designed or modified for dental or other medical equipment, having all the following characteristics:

| 1. | Not capable of balancing rotors/assemblies having a mass greater than 3 kg; |

| 2. | Capable of balancing rotors/assemblies at speeds greater than 12 500 rpm; |

| 3. | Capable of correcting imbalance in two planes or more; and |

| 4. | Capable of balancing to a residual specific imbalance of 0,2 g × mm per kg of rotor mass; |

| Note: | II.A2.003 does not control balancing machines designed or modified for dental or other medical equipment. |

| b. | ‘Indicator heads’ designed or modified for use with machines specified in 2B119.a. above.

Technical Note:

‘Indicator heads’ are sometimes known as balancing instrumentation. | | 1. | Not capable of balancing rotors/assemblies having a mass greater than 3 kg; | 2. | Capable of balancing rotors/assemblies at speeds greater than 12 500 rpm; | 3. | Capable of correcting imbalance in two planes or more; and | 4. | Capable of balancing to a residual specific imbalance of 0,2 g × mm per kg of rotor mass; | Note: | II.A2.003 does not control balancing machines designed or modified for dental or other medical equipment. | b. | ‘Indicator heads’ designed or modified for use with machines specified in 2B119.a. above.

Technical Note:

‘Indicator heads’ are sometimes known as balancing instrumentation. | 2B119 |

Technical Note:

‘Indicator heads’ are sometimes known as balancing instrumentation. |
| II.A2.004 | Remote manipulators that can be used to provide remote actions in radiochemical separation operations or hot cells, other than those specified in 2B225, having either of the following characteristics:

| a. | A capability of penetrating a hot cell wall of 0,3 m or more (through the wall operation); or |

| b. | A capability of bridging over the top of a hot cell wall with a thickness of 0,3 m or more (over the wall operation). | | a. | A capability of penetrating a hot cell wall of 0,3 m or more (through the wall operation); or | b. | A capability of bridging over the top of a hot cell wall with a thickness of 0,3 m or more (over the wall operation). | 2B225 |
| b. | A capability of bridging over the top of a hot cell wall with a thickness of 0,3 m or more (over the wall operation). |
| II.A2.006 | Furnaces capable of operation at temperatures above 400 o C as follows:

| a. | Oxidation furnaces |

| b. | Controlled atmosphere heat treatment furnaces |

| Note: | This item does not cover tunnel kilns with roller or car conveyance, tunnel kilns with conveyor belt, pusher type kilns or shuttle kilns, specially designed for the production of glass, tableware ceramics or structural ceramics. | | a. | Oxidation furnaces | b. | Controlled atmosphere heat treatment furnaces | Note: | This item does not cover tunnel kilns with roller or car conveyance, tunnel kilns with conveyor belt, pusher type kilns or shuttle kilns, specially designed for the production of glass, tableware ceramics or structural ceramics. | 2B226

2B227 |
| a. | Oxidation furnaces |
| Note: | This item does not cover tunnel kilns with roller or car conveyance, tunnel kilns with conveyor belt, pusher type kilns or shuttle kilns, specially designed for the production of glass, tableware ceramics or structural ceramics. |
| II.A2.007 | “Pressure transducers”, other than those defined in 2B230, capable of measuring absolute pressures at any point in the range 0 to 200 kPa and having both of the following characteristics:

| a. | Pressure sensing elements made of or protected by “Materials resistant to corrosion by uranium hexafluoride (UF 6)”, and |
b.

Having either of the following characteristics:

| 1. | A full scale of less than 200 kPa and an “accuracy” of better than ± 1 % of full scale; or |

| 2. | A full scale of 200 kPa or greater and an “accuracy” of better than 2 kPa. | | a. | Pressure sensing elements made of or protected by “Materials resistant to corrosion by uranium hexafluoride (UF 6)”, and | 1. | A full scale of less than 200 kPa and an “accuracy” of better than ± 1 % of full scale; or | 2. | A full scale of 200 kPa or greater and an “accuracy” of better than 2 kPa. | 2B230 |
| 2. | A full scale of 200 kPa or greater and an “accuracy” of better than 2 kPa. |
| II.A2.011 | Centrifugal separators, capable of continuous separation without the propagation of aerosols and manufactured from:

| a. | Alloys with more than 25 % nickel and 20 % chromium by weight; |

| b. | Fluoropolymers; |

| c. | Glass (including vitrified or enamelled coating or glass lining); |

| d. | Nickel or alloys with more than 40 % nickel by weight; |

| e. | Tantalum or tantalum alloys; |

| f. | Titanium or titanium alloys; or |

| g. | Zirconium or zirconium alloys. |

| Note: | This item does not cover centrifugal separators defined in item 2B352.c. | | a. | Alloys with more than 25 % nickel and 20 % chromium by weight; | b. | Fluoropolymers; | c. | Glass (including vitrified or enamelled coating or glass lining); | d. | Nickel or alloys with more than 40 % nickel by weight; | e. | Tantalum or tantalum alloys; | f. | Titanium or titanium alloys; or | g. | Zirconium or zirconium alloys. | Note: | This item does not cover centrifugal separators defined in item 2B352.c. | 2B352.c |
| b. | Fluoropolymers; |
| e. | Tantalum or tantalum alloys; |
| f. | Titanium or titanium alloys; or |
| g. | Zirconium or zirconium alloys. |
| Note: | This item does not cover centrifugal separators defined in item 2B352.c. |
| II.A2.012 | Sintered metal filters made of nickel or nickel alloy with more than 40 % nickel by weight.

| Note: | This item does not cover filters defined in item 2B352.d. | | Note: | This item does not cover filters defined in item 2B352.d. | 2B352.d |
| Note: | This item does not cover filters defined in item 2B352.d. |
| II.A2.013 | Spin-forming machines and flow-forming machines, other than those controlled by 2B009, 2B109 or 2B209, having a roller force of more than 60 kN and specially designed components therefor.

Technical Note:

For the purpose of II.A2.013, machines combining the functions of spin-forming and flow-forming are regarded as flow-forming machines. | — |
| II.A2.014 | Liquid-liquid contacting equipment (mixer-settlers, pulsed columns, centrifugal contactors); and liquid distributors, vapour distributors or liquid collectors designed for such equipment where all surfaces that come in direct contact with the chemical(s) being processed are any of the following:

| N.B. | see also III.A2.008. |
a.

Made from any of the following materials:

| 1. | Alloys with more than 25 % nickel and 20 % chromium by weight; |

| 2. | Fluoropolymers; |

| 3. | Glass (including vitrified or enamelled coating or glass lining); |

| 4. | Graphite or ‘carbon graphite’; |

| 5. | Nickel or alloys with more than 40 % nickel by weight; |

| 6. | Tantalum or tantalum alloys; |

| 7. | Titanium or titanium alloys; |

| 8. | Zirconium or zirconium alloys; or |

| 9. | Niobium (columbium) or niobium alloys; or |

| b. | Made from both stainless steel and one or more of the materials specified in II.A2.014.a. |
Technical Note:

‘Carbon graphite’ is a composition consisting of amorphous carbon and graphite, in which the graphite content is 8 % or more by weight. | N.B. | see also III.A2.008. | 1. | Alloys with more than 25 % nickel and 20 % chromium by weight; | 2. | Fluoropolymers; | 3. | Glass (including vitrified or enamelled coating or glass lining); | 4. | Graphite or ‘carbon graphite’; | 5. | Nickel or alloys with more than 40 % nickel by weight; | 6. | Tantalum or tantalum alloys; | 7. | Titanium or titanium alloys; | 8. | Zirconium or zirconium alloys; or | 9. | Niobium (columbium) or niobium alloys; or | b. | Made from both stainless steel and one or more of the materials specified in II.A2.014.a. | 2B350.e |
| N.B. | see also III.A2.008. |
| 2. | Fluoropolymers; |
| 4. | Graphite or ‘carbon graphite’; |
| 6. | Tantalum or tantalum alloys; |
| 7. | Titanium or titanium alloys; |
| 8. | Zirconium or zirconium alloys; or |
| 9. | Niobium (columbium) or niobium alloys; or |
| II.A2.015 | Industrial equipment and components, other than those specified in 2B350.d, as follows:

| N.B. | see also III.A2.009. |
Heat exchangers or condensers with a heat transfer surface area greater than 0,05 m 2, and less than 30 m 2; and tubes, plates, coils or blocks (cores) designed for such heat exchangers or condensers, where all surfaces that come in direct contact with the fluid(s) are any of the following:

a.

Made from any of the following materials:

| 2. | Fluoropolymers; |

| 4. | Graphite or ‘carbon graphite’; |

| 6. | Tantalum or tantalum alloys; |

| 7. | Titanium or titanium alloys; |

| 8. | Zirconium or zirconium alloys; |

| 9. | Silicon carbide; |

| 10. | Titanium carbide; or |

| 11. | Niobium (columbium) or niobium alloys; or |

| b. | Made from both stainless steel and one or more of the materials specified in II.A2.015.a. |

| Note: | This item does not cover vehicle radiators. |
Technical Note:

The materials used for gaskets and seals and other implementation of sealing functions do not determine the status of control of the heat exchanger. | N.B. | see also III.A2.009. | 1. | Alloys with more than 25 % nickel and 20 % chromium by weight; | 2. | Fluoropolymers; | 3. | Glass (including vitrified or enamelled coating or glass lining); | 4. | Graphite or ‘carbon graphite’; | 5. | Nickel or alloys with more than 40 % nickel by weight; | 6. | Tantalum or tantalum alloys; | 7. | Titanium or titanium alloys; | 8. | Zirconium or zirconium alloys; | 9. | Silicon carbide; | 10. | Titanium carbide; or | 11. | Niobium (columbium) or niobium alloys; or | b. | Made from both stainless steel and one or more of the materials specified in II.A2.015.a. | Note: | This item does not cover vehicle radiators. | 2B350.d |
| N.B. | see also III.A2.009. |
| 2. | Fluoropolymers; |
| 4. | Graphite or ‘carbon graphite’; |
| 6. | Tantalum or tantalum alloys; |
| 7. | Titanium or titanium alloys; |
| 8. | Zirconium or zirconium alloys; |
| 9. | Silicon carbide; |
| 10. | Titanium carbide; or |
| II.A2.016 | Multiple-seal, and seal-less pumps, other than those specified in 2B350.i, suitable for corrosive fluids, with manufacturer’s specified maximum flow-rate greater than 0,6 m 3 /hour, or vacuum pumps with manufacturer’s specified maximum flow-rate greater than 5 m 3 /hour [measured under standard temperature (273 K or 0 o C) and pressure (101,3 kPa) conditions]; and casings (pump bodies), preformed casing liners, impellers, rotors or jet pump nozzles designed for such pumps, in which all surfaces that come in direct contact with the chemical(s) being processed are any of the following:

| NB. | see also III.A2.010. |
a.

Made from any of the following materials:

| 2. | Ceramics; |

| 3. | Ferrosilicon; |

| 4. | Fluoropolymers; |

| 5. | Glass (including vitrified or enamelled coatings or glass lining); |

| 6. | Graphite or ‘carbon graphite’ |

| 7. | Nickel or alloys with more than 40 % nickel by weight; |

| 8. | Tantalum or tantalum alloys; |

| 9. | Titanium or titanium alloys; |

| 10. | Zirconium or zirconium alloys; |

| 12. | Aluminium alloys; or |

| b. | Made from both stainless steel and one or more of the materials specified in II.A2.016.a. |
Technical Note:

The materials used for gaskets and seals and other implementation of sealing functions do not determine the status of control of the pump. | NB. | see also III.A2.010. | 1. | Alloys with more than 25 % nickel and 20 % chromium by weight; | 2. | Ceramics; | 3. | Ferrosilicon; | 4. | Fluoropolymers; | 5. | Glass (including vitrified or enamelled coatings or glass lining); | 6. | Graphite or ‘carbon graphite’ | 7. | Nickel or alloys with more than 40 % nickel by weight; | 8. | Tantalum or tantalum alloys; | 9. | Titanium or titanium alloys; | 10. | Zirconium or zirconium alloys; | 11. | Niobium (columbium) or niobium alloys; or | 12. | Aluminium alloys; or | b. | Made from both stainless steel and one or more of the materials specified in II.A2.016.a. | 2B350.i |
| NB. | see also III.A2.010. |
| 2. | Ceramics; |
| 3. | Ferrosilicon; |
| 4. | Fluoropolymers; |
| 6. | Graphite or ‘carbon graphite’ |
| 8. | Tantalum or tantalum alloys; |
| 9. | Titanium or titanium alloys; |
| 10. | Zirconium or zirconium alloys; |
| 12. | Aluminium alloys; or |

| | A3. | Electronics | A3. | Electronics |
| A3. | Electronics |
| II.A3.001 | High voltage direct current power supplies having both of the following characteristics:

| a. | Capable of continuously producing, over a time period of eight hours, 10 kV or more, with output power of 5 kW or more with or without sweeping; and |

| b. | Current or voltage stability better than 0,1 % over a time period of four hours. |

| Note: | This item does not cover power supplies defined in items 0B001.j.5 and 3A227. | | a. | Capable of continuously producing, over a time period of eight hours, 10 kV or more, with output power of 5 kW or more with or without sweeping; and | b. | Current or voltage stability better than 0,1 % over a time period of four hours. | Note: | This item does not cover power supplies defined in items 0B001.j.5 and 3A227. | 3A227 |
| Note: | This item does not cover power supplies defined in items 0B001.j.5 and 3A227. |
| II.A3.002 | Mass spectrometers, other than those specified in 3A233 or 0B002.g, capable of measuring ions of 200 atomic mass units or more and having a resolution of better than 2 parts in 200, as follows, and ion sources thereof:

| a. | Inductively coupled plasma mass spectrometers (ICP/MS); |

| b. | Glow discharge mass spectrometers (GDMS); |

| c. | Thermal ionisation mass spectrometers (TIMS); |
d.

Electron bombardment mass spectrometers having both of the following features:

| 1. | A molecular beam inlet system that injects a collimated beam of analyte molecules into a region of the ion source where the molecules are ionised by an electron beam; and |

| 2. | One or more ‘cold traps’ that can be cooled to a temperature of 193 K (– 80 o C); |

| e. | Not used |

| f. | Mass spectrometers equipped with a microfluorination ion source designed for actinides or actinide fluorides. |
Technical Notes:

| 1. | Electron bombardment mass spectrometers in II.A3.002.d. are also known as electron impact mass spectrometers or electron ionisation mass spectrometers. |

| 2. | In II.A3.002.d.2., a ‘cold trap’ is a device that traps gas molecules by condensing or freezing them on cold surfaces. For the purposes of II.A3.002.d.2., a closed-loop gaseous helium cryogenic vacuum pump is not a ‘cold trap’. | | a. | Inductively coupled plasma mass spectrometers (ICP/MS); | b. | Glow discharge mass spectrometers (GDMS); | c. | Thermal ionisation mass spectrometers (TIMS); | 1. | A molecular beam inlet system that injects a collimated beam of analyte molecules into a region of the ion source where the molecules are ionised by an electron beam; and | 2. | One or more ‘cold traps’ that can be cooled to a temperature of 193 K (– 80 o C); | e. | Not used | f. | Mass spectrometers equipped with a microfluorination ion source designed for actinides or actinide fluorides. | 1. | Electron bombardment mass spectrometers in II.A3.002.d. are also known as electron impact mass spectrometers or electron ionisation mass spectrometers. | 2. | In II.A3.002.d.2., a ‘cold trap’ is a device that traps gas molecules by condensing or freezing them on cold surfaces. For the purposes of II.A3.002.d.2., a closed-loop gaseous helium cryogenic vacuum pump is not a ‘cold trap’. | 3A233 |
| b. | Glow discharge mass spectrometers (GDMS); |
| e. | Not used |
| 2. | In II.A3.002.d.2., a ‘cold trap’ is a device that traps gas molecules by condensing or freezing them on cold surfaces. For the purposes of II.A3.002.d.2., a closed-loop gaseous helium cryogenic vacuum pump is not a ‘cold trap’. |
| II.A3.004 | Frequency changers or generators, other than those specified in 0B001.b.13., usable as a variable or fixed frequency motor drive, having all of the following characteristics:

| a. | Multiphase output providing a power of 40 VA or greater; |

| b. | Operating at a frequency of 600 Hz or more; and |

| c. | Frequency control better (less) than 0,2 %. |
Technical Notes:

| 1. | Frequency changers in II.A3.004 are also known as converters or inverters. |

| 2. | Frequency changers in II.A3.004 may be marketed as Generators, Electronic Test Equipment, AC Power Supplies, Variable Speed Motors Drives, Variable Speed Drives (VSDs), Variable Frequency Drives (VFDs), Adjustable Frequency Drives (AFDs), or Adjustable Speed Drives (ASDs). | | a. | Multiphase output providing a power of 40 VA or greater; | b. | Operating at a frequency of 600 Hz or more; and | c. | Frequency control better (less) than 0,2 %. | 1. | Frequency changers in II.A3.004 are also known as converters or inverters. | 2. | Frequency changers in II.A3.004 may be marketed as Generators, Electronic Test Equipment, AC Power Supplies, Variable Speed Motors Drives, Variable Speed Drives (VSDs), Variable Frequency Drives (VFDs), Adjustable Frequency Drives (AFDs), or Adjustable Speed Drives (ASDs). | 3A225

0B001.b.13 |
| 2. | Frequency changers in II.A3.004 may be marketed as Generators, Electronic Test Equipment, AC Power Supplies, Variable Speed Motors Drives, Variable Speed Drives (VSDs), Variable Frequency Drives (VFDs), Adjustable Frequency Drives (AFDs), or Adjustable Speed Drives (ASDs). |

| | A6. | Sensors and Lasers | A6. | Sensors and Lasers |
| A6. | Sensors and Lasers |
| No | Description | Related item from Annex I to Regulation (EU) 2021/821 |
| II.A6.001 | Yttrium aluminium garnet (YAG) rods | — |
| II.A6.002 | Optical equipment and components, other than those specified in 6A002, 6A004.b as follows:

Infrared optics in the wavelength range 9 000 nm – 17 000 nm and components thereof, including cadmium telluride (CdTe) components. | 6A002 |
| 6A004.b

II.A6.003 | Wave front corrector systems for use with a laser beam having a diameter exceeding 4 mm, and specially designed components thereof, including control systems, phase front sensors and ‘deformable mirrors’ including bimorph mirrors.

| a. | Individual semiconductor “lasers” with an output power greater than 200 mW each, in quantities larger than 100; or |

| b. | Semiconductor “laser” arrays having an output power greater than 20 W. |
Notes:

| 1. | Semiconductor “lasers” are commonly called “laser” diodes. |

| 2. | This item does not cover “lasers” defined in items 0B001.g.5, 0B001.h.6 and 6A005.b. |

| 3. | This item does not cover “laser” diodes with a wavelength in the range 1 200 nm – 2 000 nm. | | a. | Individual semiconductor “lasers” with an output power greater than 200 mW each, in quantities larger than 100; or | b. | Semiconductor “laser” arrays having an output power greater than 20 W. | 1. | Semiconductor “lasers” are commonly called “laser” diodes. | 2. | This item does not cover “lasers” defined in items 0B001.g.5, 0B001.h.6 and 6A005.b. | 3. | This item does not cover “laser” diodes with a wavelength in the range 1 200 nm – 2 000 nm. | 6A005.b |
| 3. | This item does not cover “laser” diodes with a wavelength in the range 1 200 nm – 2 000 nm. |
| II.A6.006 | “Tunable” semiconductor “lasers” and “tunable” semiconductor “laser” arrays, of a wavelength between 9 μm and 17 μm, as well as array stacks of semiconductor “lasers” containing at least one “tunable” semiconductor “laser” array of such wavelength.

Notes:

| 2. | This item does not cover semiconductor “lasers” defined in items 0B001.h.6 and 6A005.b | | 1. | Semiconductor “lasers” are commonly called “laser” diodes. | 2. | This item does not cover semiconductor “lasers” defined in items 0B001.h.6 and 6A005.b | 6A005.b |
| 2. | This item does not cover semiconductor “lasers” defined in items 0B001.h.6 and 6A005.b |
| II.A6.007 | Solid state “tunable” “lasers” and specially designed components thereof as follows:

| a. | Titanium-sapphire “lasers”; or |

| b. | Alexandrite “lasers”. |

| a. | Framing tubes and solid-state imaging devices having a recurrence frequency equal to or exceeding 1 kHz; |

| b. | Recurrence frequency supplies; or |

| c. | Pockels cells. | | a. | Framing tubes and solid-state imaging devices having a recurrence frequency equal to or exceeding 1 kHz; | b. | Recurrence frequency supplies; or | c. | Pockels cells. | 6A203.b.4.c |
| b. | Recurrence frequency supplies; or |
| c. | Pockels cells. |
| II.A6.010 | Radiation-hardened cameras, or lenses thereof, other than those specified in 6A203.c., specially designed, or rated as radiation-hardened, to withstand a total radiation dose greater than 50 × 10 3 Gy (silicon) (5 × 10 6 rad (silicon)) without operational degradation.

Technical Note:

The term Gy(silicon) refers to the energy in Joules per kilogram absorbed by an unshielded silicon sample when exposed to ionising radiation. | 6A203.c |
| II.A6.011 | “Tunable” pulsed dye laser amplifiers and oscillators, having all of the following characteristics:

| a. | Operating at wavelengths between 300 nm and 800 nm; |

| b. | An average output power greater than 10 W but not exceeding 30 W; |

| c. | A repetition rate greater than 1 kHz; and |

| d. | Pulse width less than 100 ns. |
Notes:

| 1. | This item does not cover single mode oscillators. |

| 2. | This item does not cover “tunable” pulsed dye “laser” amplifiers and oscillators defined in item 6A205.c, 0B001.g.5 and 6A005. | | a. | Operating at wavelengths between 300 nm and 800 nm; | b. | An average output power greater than 10 W but not exceeding 30 W; | c. | A repetition rate greater than 1 kHz; and | d. | Pulse width less than 100 ns. | 1. | This item does not cover single mode oscillators. | 2. | This item does not cover “tunable” pulsed dye “laser” amplifiers and oscillators defined in item 6A205.c, 0B001.g.5 and 6A005. | 6A205.c |
| c. | A repetition rate greater than 1 kHz; and |
| d. | Pulse width less than 100 ns. |
| 2. | This item does not cover “tunable” pulsed dye “laser” amplifiers and oscillators defined in item 6A205.c, 0B001.g.5 and 6A005. |
| II.A6.012 | Pulsed carbon dioxide “lasers” having all of the following characteristics:

| 1. | Operating at wavelengths between 9 000 nm and 11 000 nm; |

| 2. | A repetition rate greater than 250 Hz; |

| 3. | An average output power greater than 100 W but not exceeding 500 W; and |

| 4. | Pulse width less than 200 ns. |

| 1. | Operating at wavelengths between 500 and 600 nm; and |

| 2. | An average output power equal to or greater than 15 W. | | 1. | Operating at wavelengths between 500 and 600 nm; and | 2. | An average output power equal to or greater than 15 W. | 6A005.b |
| 2. | An average output power equal to or greater than 15 W. |
| II.A6.014 | Pulsed carbon monoxide “lasers” having all of the following characteristics:

| 1. | Operating at wavelengths between 5 000 and 6 000 nm; |

| 2. | A repetition rate greater than 250 Hz; |

| 3. | An average output power greater than 100 W; and |

| 4. | Pulse width of less than 200 ns. |

| Note: | This item does not control the higher power (typically 1 to 5 kW) industrial carbon monoxide “lasers” used in applications such as cutting and welding, as these latter “lasers” are either continuous wave or are pulsed with a pulse width greater than 200 ns. | | 1. | Operating at wavelengths between 5 000 and 6 000 nm; | 2. | A repetition rate greater than 250 Hz; | 3. | An average output power greater than 100 W; and | 4. | Pulse width of less than 200 ns. | Note: | This item does not control the higher power (typically 1 to 5 kW) industrial carbon monoxide “lasers” used in applications such as cutting and welding, as these latter “lasers” are either continuous wave or are pulsed with a pulse width greater than 200 ns. |
| 2. | A repetition rate greater than 250 Hz; |
| 4. | Pulse width of less than 200 ns. |
| Note: | This item does not control the higher power (typically 1 to 5 kW) industrial carbon monoxide “lasers” used in applications such as cutting and welding, as these latter “lasers” are either continuous wave or are pulsed with a pulse width greater than 200 ns. |

| | A7. | Navigation and Avionics | A7. | Navigation and Avionics |
| A7. | Navigation and Avionics |
| II.A7.001 | Inertial navigation systems and specially designed components thereof, as follows:

I.

Inertial navigation systems which are certified for use on “civil aircraft” by civil authorities of a State participating in the Wassenaar Arrangement, and specially designed components thereof, as follows:

a.

Inertial navigation systems (INSs) (gimballed or strapdown) and inertial equipment designed for “aircraft”, land vehicle, vessels (surface or underwater) or ‘spacecraft’ for attitude, guidance or control, having any of the following characteristics, and specially designed components thereof:

| 1. | Navigation error (free inertial) subsequent to normal alignment of 0,8 nautical mile per hour (nm/hr) “Circular Error Probable” “(CEP)” or less (better); or |

| 2. | Specified to function at linear acceleration levels exceeding 10 g; |

| b. | Hybrid Inertial Navigation Systems embedded with Global Navigation Satellite Systems(s) (GNSS) or with “Data-Based Referenced Navigation” (“DBRN”) System(s) for attitude, guidance or control, subsequent to normal alignment, having an INS navigation position accuracy, after loss of GNSS or “DBRN” for a period of up to four minutes, of less (better) than 10 metres “CEP”; |
c.

Inertial Equipment for Azimuth, Heading, or North Pointing having any of the following characteristics, and specially designed components thereof:

| 1. | Designed to have an Azimuth, Heading, or North Pointing accuracy equal to, or less (better) than 6 arc/ minutes RMS at 45 degrees latitude; or |

| 2. | Designed to have a non-operating shock level of at least 900 g at a duration of at least 1 msec. |
Note:

The parameters of I.a. and I.b. are applicable with any of the following environmental conditions: 1.

Input random vibration with an overall magnitude of 7,7 g rms in the first half hour and a total test duration of one and a half hours per axis in each of the three perpendicular axes, when the random vibration meets the following:

| a. | A constant power spectral density (PSD) value of 0,04 g 2 /Hz over a frequency interval of 15 to 1 000 Hz; and |

| b. | The PSD attenuates with a frequency from 0,04 g 2 /Hz to 0,01 g 2 /Hz over a frequency interval from 1 000 to 2 000 Hz; |

| 2. | A roll and yaw rate equal to or greater than +2,62 radian/s (150 deg/s); or |

| 3. | According to national standards equivalent to 1. or 2. above. |
Technical Note:

I.b. refers to systems in which an INS and other independent navigation aids are built into a single unit (embedded) in order to achieve improved performance.

| II. | Theodolite systems incorporating inertial equipment specially designed for civil surveying purposes and designed to have an Azimuth, Heading, or North Pointing accuracy equal to, or less (better) than 6 arc minutes RMS at 45 degrees latitude, and specially designed components thereof. |

| III. | Inertial or other equipment using accelerometers specified in 7A001 or 7A101, where such accelerometers are specially designed and developed as MWD (Measurement While Drilling) sensors for use in downhole well services operations. | | 1. | Navigation error (free inertial) subsequent to normal alignment of 0,8 nautical mile per hour (nm/hr) “Circular Error Probable” “(CEP)” or less (better); or | 2. | Specified to function at linear acceleration levels exceeding 10 g; | b. | Hybrid Inertial Navigation Systems embedded with Global Navigation Satellite Systems(s) (GNSS) or with “Data-Based Referenced Navigation” (“DBRN”) System(s) for attitude, guidance or control, subsequent to normal alignment, having an INS navigation position accuracy, after loss of GNSS or “DBRN” for a period of up to four minutes, of less (better) than 10 metres “CEP”; | 1. | Designed to have an Azimuth, Heading, or North Pointing accuracy equal to, or less (better) than 6 arc/ minutes RMS at 45 degrees latitude; or | 2. | Designed to have a non-operating shock level of at least 900 g at a duration of at least 1 msec. | a. | A constant power spectral density (PSD) value of 0,04 g 2 /Hz over a frequency interval of 15 to 1 000 Hz; and | b. | The PSD attenuates with a frequency from 0,04 g 2 /Hz to 0,01 g 2 /Hz over a frequency interval from 1 000 to 2 000 Hz; | 2. | A roll and yaw rate equal to or greater than +2,62 radian/s (150 deg/s); or | 3. | According to national standards equivalent to 1. or 2. above. | II. | Theodolite systems incorporating inertial equipment specially designed for civil surveying purposes and designed to have an Azimuth, Heading, or North Pointing accuracy equal to, or less (better) than 6 arc minutes RMS at 45 degrees latitude, and specially designed components thereof. | III. | Inertial or other equipment using accelerometers specified in 7A001 or 7A101, where such accelerometers are specially designed and developed as MWD (Measurement While Drilling) sensors for use in downhole well services operations. | 7A003

7A103 |
| III. | Inertial or other equipment using accelerometers specified in 7A001 or 7A101, where such accelerometers are specially designed and developed as MWD (Measurement While Drilling) sensors for use in downhole well services operations. |

| | A9. | Aerospace and Propulsion | A9. | Aerospace and Propulsion |
| A9. | Aerospace and Propulsion |
| II.A9.001 | Explosive bolts. | — |
II.B. TECHNOLOGY

| II.B.001 | Technology required for the development, production, or use of the items in Part II.A. (Goods) above.

Technical Note:

The term ‘technology’ includes software. | — |
ANNEX IIa

Goods and technology referred to in Article 3(1), 3(3) and 3(5), Article 5(2), Article 8(4), Article 18(1), Article 31(1) and Article 45

INTRODUCTORY NOTES

| | 1. | Unless otherwise stated, reference numbers used in the column below entitled “Description” refer to the descriptions of dual use items and technology set out in Annex I to Regulation (EU) 2021/821. |

| | 2. | A reference number in the column below entitled “Related item from Annex I to Regulation (EU) 2021/821” means that the characteristics of the item described in the “Description” column lie outside the parameters set out in the description of the dual use entry referred to. |

GENERAL NOTES

| | 1. | The object of the controls contained in this Annex should not be defeated by the export of any non-controlled goods (including plant) containing one or more controlled components when the controlled component or components is/are the principal element of the goods and can feasibly be removed or used for other purposes. |

| N.B.: | In judging whether the controlled component or components is/are to be considered the principal element, it is necessary to weigh the factors of quantity, value and technological know-how involved and other special circumstances which might establish the controlled component or components as the principal element of the goods being procured. |

GENERAL TECHNOLOGY NOTE (GTN)

| | 1. | The sale, supply, transfer or export of “technology” which is “required” for the “use” of goods the sale, supply, transfer or export of which is controlled in Part A (Goods) below, is controlled in accordance with the provisions of Section III.B. |

| | 2. | The sale, supply, transfer or export of “technology” which is “required” for the “development” or “production” of goods the sale, supply, transfer or export of which is controlled in Part A (Goods) below, is prohibited in accordance with the provisions of Annex II, Section II.B. |

| | 3. | The “technology” “required” for the “use” of goods under control remains under control even when it is applicable to non-controlled goods. |

| | 4. | Controls do not apply to that “technology” which is the minimum necessary for the installation, operation, maintenance (checking) and repair of those goods which are not controlled or the export of which has been authorised in accordance with Regulation (EC) No 423/2007, Regulation (EU) No 961/2010 or this Regulation. |

| | 5. | Controls on “technology” transfer do not apply to information “in the public domain”, to “basic scientific research” or to the minimum necessary information for patent applications. |
III.A. GOODS

| III.A0.015 | ‘Glove Boxes’, specially designed for radioactive isotopes, radioactive sources or radionuclides.

Technical Note:

‘Glove Boxes’ means equipment providing protection to the user, from hazardous vapour, particles or radiation, from materials inside the equipment being handled or processed by a person outside the equipment, by means of manipulators or gloves integrated into the equipment. | 0B006 |
| III.A0.016 | Toxic gas monitoring systems designed for continuous operation and detection of hydrogen sSulphide, and specially designed detectors therefore. | 0A001

0B001.c |
| III.A0.017 | Helium leak detectors. | 0A001

0B001.c |

| a. | Copolymers of vinylidene fluoride having 75 % or more beta crystalline structure without stretching; |

| b. | Fluorinated polyimides containing 10 % by weight or more of combined fluorine; |

| c. | Fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine; |

| d. | Polychlorotrifluoroethylene (PCTFE, e.g. Kel-F ®); |

| e. | Fluoro-elastomers (e.g., Viton ®, Tecnoflon ®); |

| f. | Polytetrafluoroethylene (PTFE). | | a. | Copolymers of vinylidene fluoride having 75 % or more beta crystalline structure without stretching; | b. | Fluorinated polyimides containing 10 % by weight or more of combined fluorine; | c. | Fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine; | d. | Polychlorotrifluoroethylene (PCTFE, e.g. Kel-F ®); | e. | Fluoro-elastomers (e.g., Viton ®, Tecnoflon ®); | f. | Polytetrafluoroethylene (PTFE). |
| f. | Polytetrafluoroethylene (PTFE). |
| III.A1.004 | Personal equipment for detecting radiation of nuclear origin, including personal dosimeters.

| (a) | Steel alloys ‘capable of’ ultimate tensile strength of 1 200 MPa or more, at 293 K (20 o C); or |

| (b) | Nitrogen-stabilised duplex stainless steel. |

| Note: | The phrase alloys ‘capable of’ encompasses alloys before or after heat treatment. |
Technical Note:

‘Nitrogen-stabilised duplex stainless steel’ has a two-phase microstructure consisting of grains of ferritic and austenitic steel with the addition of nitrogen to stabilise the microstructure. | (a) | Steel alloys ‘capable of’ ultimate tensile strength of 1 200 MPa or more, at 293 K (20 o C); or | (b) | Nitrogen-stabilised duplex stainless steel. | Note: | The phrase alloys ‘capable of’ encompasses alloys before or after heat treatment. | 1C116

| a. | Toluene Diisocyanate (TDI); |

| b. | Methyl Diphenyl Diisocyanate (MDI); |

| c. | Isophorone Diiscocyanate (IPDI); |

| d. | Sodium perchlorate; |

| e. | Xylidine; |

| f. | Hydroxy Terminated Polyether (HTPE); or |

| g. | Hydroxy Terminated Caprolactone Ether (HTCE). |
Technical Note:

This item refers to pure substance and any mixture containing at least 50 % of one of the chemicals mentioned above. | a. | Toluene Diisocyanate (TDI); | b. | Methyl Diphenyl Diisocyanate (MDI); | c. | Isophorone Diiscocyanate (IPDI); | d. | Sodium perchlorate; | e. | Xylidine; | f. | Hydroxy Terminated Polyether (HTPE); or | g. | Hydroxy Terminated Caprolactone Ether (HTCE). | 1C111 |
| a. | Toluene Diisocyanate (TDI); |
| b. | Methyl Diphenyl Diisocyanate (MDI); |
| c. | Isophorone Diiscocyanate (IPDI); |
| d. | Sodium perchlorate; |
| e. | Xylidine; |
| f. | Hydroxy Terminated Polyether (HTPE); or |
| III.A1.025 | ‘Lubricating materials’ containing, as their principal ingredients, any of the following:

| a. | Perfluoroalkylether, (CAS 60164-51-4); |

| b. | Perfluoropolyalkylether, PFPE, (CAS 6991-67-9). |
Technical Note:

‘Lubricating materials’ means oils and fluids. | a. | Perfluoroalkylether, (CAS 60164-51-4); | b. | Perfluoropolyalkylether, PFPE, (CAS 6991-67-9). | 1C006 |
| a. | Perfluoroalkylether, (CAS 60164-51-4); |
| III.A1.026 | Beryllium-copper or copper-beryllium alloys in plate, sheet, strip or rolled bar form, having a composition comprising copper as the major element by weight and other elements including less than 2 % by weight beryllium. | 1C002.b |

| A2. | Materials Processing |
| III.A2.008 | Liquid-liquid contacting equipment (mixer-settlers, pulsed columns, centrifugal contactors); and liquid distributors, vapour distributors or liquid collectors designed for such equipment, where all surfaces that come in direct contact with the chemical(s) being processed are made from stainless steel.

| N.B. | see also II.A2.014. |

| N.B. | see also II.A2.015. |
Heat exchangers or condensers with a heat transfer surface area greater than 0,05 m 2, and less than 30 m 2; and tubes, plates, coils or blocks (cores) designed for such heat exchangers or condensers, where all surfaces that come in direct contact with the fluid(s) are made from stainless steel.

| Note 1: | For stainless steel with more than 25 % nickel and 20 % chromium by weight see entry II.A2.015a. |

| Note 2: | This item does not cover vehicle radiators. |
Technical Note:

The materials used for gaskets and seals and other implementation of sealing functions do not determine the status of control of the heat exchanger. | N.B. | see also II.A2.015. | Note 1: | For stainless steel with more than 25 % nickel and 20 % chromium by weight see entry II.A2.015a. | Note 2: | This item does not cover vehicle radiators. | 2B350.d |
| N.B. | see also II.A2.015. |
| III.A2.010 | Multiple-seal, and seal-less pumps, other than those specified in 2B350.i, suitable for corrosive fluids, with manufacturer’s specified maximum flow-rate greater than 0,6 m 3 /hour, or vacuum pumps with manufacturer’s specified maximum flow-rate greater than 5 m 3 /hour [measured under standard temperature (273 K or 0 o C) and pressure (101,3 kPa) conditions]; and casings (pump bodies), preformed casing liners, impellers, rotors or jet pump nozzles designed for such pumps, in which all surfaces that come in direct contact with the chemical(s) being processed are made from stainless steel.

| N.B. | see also II.A2.016. |
Note: for stainless steel with more than 25 % nickel and 20 % chromium by weight see entry II.A2.016a.

Technical Note:

The materials used for gaskets and seals and other implementation of sealing functions do not determine the status of control of the pump. | N.B. | see also II.A2.016. | 2B350.i |
| N.B. | see also II.A2.016. |
| III.A2.017 | Electrical Discharge Machine (EDM) tools for removing or cutting metals, ceramics or “composites”, as follows, and specially designed ram, sinker or wire electrodes therefor:

| a. | Ram or sinker electrode Electrical Discharge Machines; |

| b. | Wire electrode Electrical Discharge Machines. |

| Note: | Electrical Discharge Machines are also known as Spark Erosion Machines or Wire Erosion Machines. | | a. | Ram or sinker electrode Electrical Discharge Machines; | b. | Wire electrode Electrical Discharge Machines. | Note: | Electrical Discharge Machines are also known as Spark Erosion Machines or Wire Erosion Machines. | 2B001.d |
| Note: | Electrical Discharge Machines are also known as Spark Erosion Machines or Wire Erosion Machines. |
| III.A2.018 | Computer controlled or “numerically controlled” co-ordinate measuring machines (CMM), or dimensional inspection machines, having a three dimensional (volumetric) maximum permissible error of indication (MPP E) at any point in the operating range of the machine (i.e. within the length axes) equal to or less (better) than (3 + L/1 000 ) μm (L is the measured length in mm), tested according to ISO 10360-2 (2001), and measurement probes designed therefor. | 2B006.a

2B206.a |
| III.A2.019 | Computer controlled or “numerically controlled” Electron Beam Welding Machines, and specially designed components therefor. | 2B001.e.1.b |
| III.A2.020 | Computer controlled or “numerically controlled” Laser Welding and Laser Cutting Machines, and specially designed components therefor. | 2B001.e.1.c |
| III.A2.021 | Computer controlled or “numerically controlled” Plasma Cutting Machines, and specially designed components therefor. | 2B001.e.1 |
| III.A2.022 | Vibration Monitoring Equipment specially designed for rotors or rotating equipment and machinery, capable of measuring any frequency in the range 600-2 000 Hz. | 2B116 |
| III.A2.023 | Liquid ring vacuum pumps, and specially designed components therefore. | 2B231

2B350.i |
| III.A2.024 | Rotary vane vacuum pumps, and specially designed components therefore.

| Note 1: | III.A2.024 does not control rotary vane vacuum pumps that are specially designed for specific other equipment. |

| Note 2: | The control status of rotary vane vacuum pumps that are specially designed for specific other equipment is determined by the control status of the other equipment. | | Note 1: | III.A2.024 does not control rotary vane vacuum pumps that are specially designed for specific other equipment. | Note 2: | The control status of rotary vane vacuum pumps that are specially designed for specific other equipment is determined by the control status of the other equipment. | 2B231

2B235.i

0B002.f |
| Note 2: | The control status of rotary vane vacuum pumps that are specially designed for specific other equipment is determined by the control status of the other equipment. |
| III.A2.025 | Air filters, as follows, having one or more physical size dimension exceeding 1 000 mm:

| a. | High Efficiency Particulate Air (HEPA) filters; |

| b. | Ultra-Low Penetration Air (ULPA) filters. |

| a. | Multiphase output power of 10 W or greater; |

| b. | Capable of operating at a frequency of 600 Hz or more; and |

Technical Note:

‘Frequency Changers’ includes frequency converters and frequency inverters.

Notes:

| 1. | Item III.A3.005 does not control frequency changers that include communication protocols or interfaces designed for specific industrial machinery (such as machine tools, spinning machines, printed circuit board machines) so that the frequency changers cannot be used for other purposes while meeting the performance characteristics above. |

| 2. | Item III.A3.005 does not control frequency changers specially designed for vehicles and which operate with a control sequence that is mutually communicated between the frequency changer and the vehicle control unit. | | a. | Multiphase output power of 10 W or greater; | b. | Capable of operating at a frequency of 600 Hz or more; and | c. | Frequency control better (less) than 0,2 %. | 1. | Item III.A3.005 does not control frequency changers that include communication protocols or interfaces designed for specific industrial machinery (such as machine tools, spinning machines, printed circuit board machines) so that the frequency changers cannot be used for other purposes while meeting the performance characteristics above. | 2. | Item III.A3.005 does not control frequency changers specially designed for vehicles and which operate with a control sequence that is mutually communicated between the frequency changer and the vehicle control unit. | 3A225

0B001.b.13 |
| 2. | Item III.A3.005 does not control frequency changers specially designed for vehicles and which operate with a control sequence that is mutually communicated between the frequency changer and the vehicle control unit. |

Technical Note:

‘Vacuum pressure gauges’ include Pirani Gauges, Penning Gauges and Capacitance Manometers. | 0B001.b |
| III.A6.013 | Microscopes and related equipment and detectors, as follows:

| a. | Scanning Electron Microscopes; |

| b. | Scanning Auger Microscopes; |

| c. | Transmission Electron Microscopes; |

| d. | Atomic Force Microscopes; |

| e. | Scanning Force Microscopes; |
f.

Equipment and detectors, specially designed for use with the microscopes specified in III.A6.013 a) to e) above, employing any of the following materials analysis techniques:

| 1. | X-ray Photo Spectroscopy (XPS); |

| 2. | Energy-dispersive X-ray Spectroscopy (EDX, EDS); or |

| 3. | Electron Spectroscopy for Chemical Analysis (ESCA). | | a. | Scanning Electron Microscopes; | b. | Scanning Auger Microscopes; | c. | Transmission Electron Microscopes; | d. | Atomic Force Microscopes; | e. | Scanning Force Microscopes; | 1. | X-ray Photo Spectroscopy (XPS); | 2. | Energy-dispersive X-ray Spectroscopy (EDX, EDS); or | 3. | Electron Spectroscopy for Chemical Analysis (ESCA). | 6B |
| a. | Scanning Electron Microscopes; |
| b. | Scanning Auger Microscopes; |
| c. | Transmission Electron Microscopes; |
| d. | Atomic Force Microscopes; |
| e. | Scanning Force Microscopes; |
| 1. | X-ray Photo Spectroscopy (XPS); |
| 3. | Electron Spectroscopy for Chemical Analysis (ESCA). |

Technical Note:

‘Load Cells’ means devices and transducers for the measurement of force in both tension and in compression.

| Note: | III.A9.002 does not include equipment, devices or transducers, specially designed for the measurement of the weight of vehicles, e.g. weigh bridges. | | Note: | III.A9.002 does not include equipment, devices or transducers, specially designed for the measurement of the weight of vehicles, e.g. weigh bridges. | 9B117 |
| Note: | III.A9.002 does not include equipment, devices or transducers, specially designed for the measurement of the weight of vehicles, e.g. weigh bridges. |
| III.A9.003 | Electrical power generation gas turbines, components and related equipment as follows:

| a. | Gas turbines specially designed for electrical power generation, having an output exceeding 200 MW; |

| b. | Vanes, stators, combustion chambers and fuel injection nozzles, specially designed for electrical power generation gas turbines specified in III.A9.003.a; |

| c. | Equipment specially designed for the “development” and “production” of electrical power generation gas turbines specified in III. A9.003.a. | | a. | Gas turbines specially designed for electrical power generation, having an output exceeding 200 MW; | b. | Vanes, stators, combustion chambers and fuel injection nozzles, specially designed for electrical power generation gas turbines specified in III.A9.003.a; | c. | Equipment specially designed for the “development” and “production” of electrical power generation gas turbines specified in III. A9.003.a. | 9A001

9A002

9A003

9B001

9B003

9B004 |
| c. | Equipment specially designed for the “development” and “production” of electrical power generation gas turbines specified in III. A9.003.a. |
III.B. TECHNOLOGY

| III.B.001 | ‘Technology’ required for the use of the items in Part III.A. (Goods) above.

Technical Note:

The term ‘technology’ includes software. | |
(2)

Annexes IVa to VI are replaced by the following:

‘ANNEX IVa

Products referred to in Article 14a and Article 31(1) Natural gas and other gaseous hydrocarbons

List of “petrochemical products” referred to in Article 13 and Article 31(1)

| HS code | Description |
| 2812 11 00 | Phosgene (carbonyl chloride) |
| 2814 | Ammonia |
| 2901 21 00 | Ethylene |
| 2901 22 00 | Propene (propylene) |
| 2902 20 00 | Benzene |
| 2902 30 00 | Toluene |
| 2902 41 00 | o -Xylene |
| 2902 42 00 | m -Xylene |
| 2902 43 00 | p -Xylene |
| 2902 44 00 | Mixed xylene isomers |
| 2902 50 00 | Styrene |
| 2902 60 00 | Ethyl benzene |
| 2902 70 00 | Cumene |
| 2903 11 00 | Chloromethane (methyl chloride) and chloroethane (ethyl chloride) |
| 2903 29 00 | Unsaturated chlorinated derivatives of acyclic hydrocarbons - other |
| 2903 81 00 | 1,2,3,4,5,6-Hexachlorocyclohexane (HCH (ISO)), including lindane (ISO, INN) |
| 2903 82 00 | Aldrin (ISO), chlordane (ISO) and heptachlor (ISO) |
| 2903 89 70 | - Halogenated derivatives of cyclanic, cyclenic or cycloterpenic hydrocarbons; -- Other; --- Other |
| 2903 91 00 | Chlorobenzene, o-dichlorobenzene and p-dichlorobenzene |
| 2903 92 00 | Hexachlorobenzene (ISO) and DDT (ISO) [clofenotane (DCI), 1,1,1-trichloro-2,2-bis(p-chlorophenyl)ethane] |
| 2903 99 80 | - Halogenated derivatives of aromatic hydrocarbons; -- Other; --- Other |
| 2905 11 00 | Methanol (methyl alcohol) |
| 2905 12 00 | Propan-1-ol (propyl alcohol) and propan-2-ol (isopropyl alcohol) |
| 2905 13 00 | Butan-1-ol (n-butyl alcohol) |
| 2905 31 00 | Ethylene glycol (ethanediol) |
| 2907 11 – 2907 19 | Phenols |
| 2909 | Ether-alcohols, ether-phenols, ether-alcohol-phenols, alcohol peroxides, ether peroxides, acetal and hemiacetal peroxides, ketone peroxides (whether or not chemically defined), and their halogenated, sulphonated, nitrated or nitrosated derivatives |
| 2909 41 00 | 2, 2′-Oxydiethanol (diethylene glycol, digol) |
| 2909 43 00 | Monobutyl ethers of ethylene-glycol or diethylene glycol |
| 2909 44 00 | Other monoalkyl ethers of ethylene-glycol or diethylene glycol |
| 2909 49 | Other ether-alcohols and their halogenated, sulphonated, nitrated or nitrosated derivatives |
| 2910 10 00 | Oxirane (ethylene oxide) |
| 2910 20 00 | Methyloxirane (propylene oxide) |
| 2914 11 00 | Acetone |
| 2917 14 00 | Maleic anhydride (MA) |
| 2917 35 00 | Phthalic anhydride (PA) |
| 2917 36 00 | Terephthalic acid and its salts |
| 2917 37 00 | Dimethyl terephthalate (DMT) |
| 2926 10 00 | Acrylonitrile |
| ex 2929 10 00 | Methylene diphenyl diisocyanate (MDI) |
| ex 2929 10 00 | Hexamethylene diisocyanate (HDI) |
| ex 2929 10 00 | Toluene diisocyanate (TDI) |
| 3102 30 | Ammonium Nitrate |
| 3901 | Polymers of ethylene, in primary forms |

List of key equipment and technology referred to in Articles 8 and 31(1)

GENERAL NOTES

| | 1. | The object of the prohibitions contained in this Annex should not be defeated by the export of any non-prohibited goods (including plant) containing one or more prohibited components when the prohibited component or components are the principal element of the goods and can feasibly be removed or used for other purposes. |

GENERAL TECHNOLOGY NOTE (GTN)

| | 1. | The “technology” “required” for the “development”, “production” or “use” of prohibited goods remains under prohibition even when applicable to non-prohibited goods. |

| | 2. | Prohibitions do not apply to that “technology” which is the minimum necessary for the installation, operation, maintenance (checking) and repair of those goods which are not prohibited or the export of which has been authorised in accordance with Regulation (EC) No 423/2007, Regulation (EU) No 961/2010 or this Regulation. |

| | 3. | Prohibitions on “technology” transfer do not apply to information “in the public domain”, to “basic scientific research” or to the minimum necessary information for patent applications. |
EXPLORATION AND PRODUCTION OF CRUDE OIL AND NATURAL GAS

1.A Equipment

| | 1. | Geophysical survey equipment, vehicles, vessels and aircraft specially designed or adapted to acquire data for oil and gas exploration and specially designed components therefore. |

| | 2. | Sensors specially designed for downhole well operations in oil and gas wells, including sensors used for measurement whilst drilling and the associated equipment specially designed to acquire and store data from such sensors. |

| | 3. | Drilling equipment designed to drill rock formations, specifically for the purpose of exploring for, or producing oil, gas and other naturally occurring, hydrocarbon materials. |

| | 4. | Drill bits, drill pipes, drill collars, centralisers and other equipment, specially designed for use in and with oil and gas well drilling equipment. |

| | 5. | Drilling wellheads, ‘blowout preventers’ and ‘Christmas or production trees’ and the specially designed components thereof, meeting the ‘API and ISO specifications’ for use with oil and gas wells. |
Technical Notes:

| a. | A ‘blowout preventer’ is a device typically used at ground level (or if drilling underwater, at the seabed) during drilling to prevent the uncontrolled escape of oil and/or gas from the well. |

| b. | A ‘Christmas tree or production tree’ is a device typically used to control flow of fluids from the well when it is complete and oil and/or gas production has started. |

| c. | For the purpose of this item, ‘API and ISO specifications’ refers to the American Petroleum Institute specifications 6A, 16A, 17D and 11IW and/or the International Standards Organisation specifications 10423 and 13533 for blowout preventers, wellhead and Christmas trees for use on oil and/or gas wells. |

| | 6. | Drilling and production platforms for crude oil and natural gas. |

| | 7. | Vessels and barges incorporating drilling and/or petroleum processing equipment used for producing oil, gas and other naturally occurring flammable materials. |

| | 8. | Liquid/gas separators meeting API specification 12J, specially designed to process the production from an oil or gas well, to separate the petroleum liquids from any water and any gas from the liquids. |

| | 9. | Gas compressor with a design pressure of 40 bar (PN 40 and/or ANSI 300) or more and having a suction volume capacity of 300 000 Nm 3 /h or more, for the initial processing and transmission of natural gas, excluded gas compressors for CNG (Compressed Natural Gas) filling stations, and specially designed components therefore. |

| | 10. | Subsea production control equipment and the components thereof meeting ‘API and ISO specifications’ for use with oil and gas wells. |
Technical Note:

For the purposes of this entry, ‘API and ISO specifications’ refers to the American Petroleum Institute specification 17 F and/or the International Standards Organisation specification 13268 for subsea production control systems.

| | 11. | Pumps, typically high capacity and/or high pressure (in excess of 0,3 m 3 per minute and/or 40 bar), specially designed to pump drilling muds and/or cement into oil and gas wells. |
1.B Test and inspection equipment

| | 1. | Equipment specially designed for sampling, testing and analysing the properties of drilling mud, oil well cements and other materials specially designed and/or formulated for use in oil and gas wells. |

| | 2. | Equipment specially designed for sampling, testing and analysing the properties of rock samples, liquid and gaseous samples and other materials taken from an oil and/or gas well either during or after drilling, or from the initial processing facilities attached thereto. |

| | 3. | Equipment specially designed for collecting and interpreting information about the physical and mechanical condition of an oil and/or gas well, and for determining the in situ properties of the rock and reservoir formation. |
1.C Materials

| | 1. | Drilling mud, drilling mud additives and the components thereof, specially formulated to stabilise oil and gas wells during drilling, to recover drill cuttings to the surface and to lubricate and cool the drilling equipment in the well. |

| | 2. | Cements and other materials meeting the ‘API and ISO specifications’ for use in oil and gas wells. |
Technical Note:

‘API and ISO specification’ refers to the American Petroleum Institute specification 10A or the International Standards Organisation specification 10426 for oil well cements and other materials specially formulated for use in the cementing of oil and gas wells.

| | 3. | Corrosion inhibiting, emulsion treatment, defoaming agents and other chemicals specially formulated to be used in the drilling for, and the initial processing of, petroleum produced from an oil and/or gas well. |
1.D Software

| | 1. | “Software” specially designed to collect and interpret data acquired from seismic, electromagnetic, magnetic or gravity surveys for the purpose of establishing oil or gas prospectivity. |

| | 2. | “Software” specially designed for storing, analysing and interpreting information acquired during drilling and production to assess the physical characteristics and behaviour of oil or gas reservoirs. |

| | 3. | “Software” specially designed for the “use” of petroleum production and processing facilities or specific sub-units of such facilities. |
1.E Technology

| | 1. | “Technology” “required” for the “development”, “production” and “use” of equipment specified in 1.A.01 – 1.A.11. |
REFINING OF CRUDE OIL AND LIQUEFACTION OF NATURAL GAS

2.A Equipment

| | 1. | Heat exchangers as follows and specially designed components therefore:
| a. | Plate-fin heat exchangers with a surface/volume ratio greater than 500 m 2 /m 3, specially designed for pre-cooling of natural gas; |

| b. | Coil-wound heat exchangers specially designed for liquefaction or sub-cooling of natural gas. | | a. | Plate-fin heat exchangers with a surface/volume ratio greater than 500 m 2 /m 3, specially designed for pre-cooling of natural gas; | b. | Coil-wound heat exchangers specially designed for liquefaction or sub-cooling of natural gas. |
| b. | Coil-wound heat exchangers specially designed for liquefaction or sub-cooling of natural gas. |

| | 2. | Cryogenic pumps for the transport of media at a temperature below – 120 o C having a transport capacity of more than 500 m 3 /h and specially designed components therefore. |

| | 3. | ‘Coldbox’ and ‘coldbox’ equipment not specified by 2.A.1. |
Technical Note:

‘Coldbox’ equipment refers to a specially designed construction, which is specific for LNG plants and incorporates the process stage of liquefaction. The ‘coldbox’ comprises heat exchangers, piping, other instrumentation and thermal insulators. The temperature inside the ‘coldbox’ is below – 120 o C (conditions for condensation of natural gas). The function of the ‘coldbox’ is the thermal insulation of the above described equipment.

| | 4. | Equipment for shipping terminals of liquefied gases having a temperature below – 120 o C and specially designed components therefore. |

| | 5. | Flexible and non-flexible transfer line having a diameter greater than 50 mm for the transport of media below – 120 o C. |

| | 6. | Maritime vessels specially designed for the transport of LNG. |

| | 7. | Electrostatic desalters specially designed to remove contaminants such as salts, solids and water from crude oil and specially designed components therefore. |

| | 8. | All crackers, including hydrocrackers, and cokers, specially designed for conversion of vacuum gas oils or vacuum residuum, and specially designed components therefore. |

| | 9. | Hydrotreaters specially designed for desulphurisation of gasoline, diesel cuts and kerosene and specially designed components therefore. |

| | 10. | Catalytic reformers specially designed for conversion of desulphurised gasoline into high-octane gasoline, and specially designed components therefore. |

| | 11. | Refinery units for C5-C6 cuts isomerisation, and refinery units for alkylation of light olefins, to improve the octane index of the hydrocarbon cuts. |

| | 12. | Pumps specially designed for the transport of crude oil and fuels, having a capacity of 50 m 3 /h or more and specially designed components therefore. |

| | 13. | Tubes with an outer diameter of 0,2 m or more and made from any of the following materials:
| a. | Stainless steels with 23 % chromium or more by weight; |

| b. | Stainless steels and nickel bases alloys with a ‘Pitting resistance equivalent’ number higher than 33. | | a. | Stainless steels with 23 % chromium or more by weight; | b. | Stainless steels and nickel bases alloys with a ‘Pitting resistance equivalent’ number higher than 33. |
| b. | Stainless steels and nickel bases alloys with a ‘Pitting resistance equivalent’ number higher than 33. |
Technical Note:

‘Pitting resistance equivalent’ (PRE) number characterises the corrosion resistance of stainless steels and nickel alloys to pitting or crevice corrosion. The pitting resistance of stainless steels and nickel alloys is primarily determined by their compositions, primarily: chromium, molybdenum, and nitrogen. The formula to calculate the PRE number is: PRE = % Cr +3,3 * % Mo + 30 * % N

| | 14. | ‘Pigs’ (Pipeline Inspection Gauge(s)) and specially designed components therefore. |

| | 15. | ‘Pig’ launchers and ‘pig’ catchers for the integration or removing of ‘pigs’ |
Technical Note:

‘Pig’ is a device typically used for cleaning or inspection of a pipeline from inside (corrosion state or crack formation) and is propelled by the pressure of the product in the pipeline.

| | 16. | Tanks for the storage of crude oil and fuels with a volume greater than 1 000 m 3 (1 000 000 litres) as follows, and specially designed components therefore:
| a. | fixed roof tanks; |

| b. | floating roof tanks. | | a. | fixed roof tanks; | b. | floating roof tanks. |
| a. | fixed roof tanks; |
| b. | floating roof tanks. |

| | 17. | Subsea flexible pipes specially designed for the transportation of hydrocarbons and injection fluids, water or gas, having a diameter greater than 50 mm. |

| | 18. | Flexible pipes used for high pressure for topside and subsea application. |

| | 19. | Isomeration equipment specially designed for production of high-octane gasoline based on light hydrocarbons as feed, and specially designed components therefore. |
2.B Test and inspection equipment

| | 1. | Equipment specially designed for testing and analysing of quality (properties) of crude oil and fuels. |

| | 2. | Interface control systems specially designed for controlling and optimising of the desalting process. |
2.C Materials

| | 1. | Diethyleneglycol (CAS 111-46-6), triethylene glycol (CAS 112-27-6) |

| | 2. | N-Methylpyrrolidone (CAS 872-50-4), sulfolane (CAS 126-33-0) |

| | 3. | Zeolites, of natural or synthetic origin, specially designed for fluid catalytic cracking or for the purification and/or dehydration of gases, including natural gases. |

| | 4. | Catalysts for the cracking and conversion of hydrocarbons as follows:
| a. | Single metal (platinum group) on alumina type or on zeolite, specially designed for catalytic reforming process; |

| b. | Mixed metal species (platinum in combination with other noble metals) on alumina type or on zeolite, specially designed for catalytic reforming process; |

| c. | Cobalt and nickel catalysts doped with molybdenum on alumina type or on zeolite, specially designed for catalytic desulphurisation process; |

| d. | Palladium, nickel, chromium and tungsten catalysts on alumina type or on zeolite, specially designed for catalytic hydrocracking process. | | a. | Single metal (platinum group) on alumina type or on zeolite, specially designed for catalytic reforming process; | b. | Mixed metal species (platinum in combination with other noble metals) on alumina type or on zeolite, specially designed for catalytic reforming process; | c. | Cobalt and nickel catalysts doped with molybdenum on alumina type or on zeolite, specially designed for catalytic desulphurisation process; | d. | Palladium, nickel, chromium and tungsten catalysts on alumina type or on zeolite, specially designed for catalytic hydrocracking process. |
| d. | Palladium, nickel, chromium and tungsten catalysts on alumina type or on zeolite, specially designed for catalytic hydrocracking process. |

| | 5. | Gasoline additives specially formulated for increasing the octane number of gasoline. |
Note:

This entry includes Ethyl tertiary butyl ether (ETBE) (CAS 637-92-3) and Methyl tertiary butyl ether (MTBE) (CAS 1634-04-4).

2.D Software

| | 1. | “Software” specially designed for the “use” of LNG plants or specific sub-units of such plants. |

| | 2. | “Software” specially designed for the “development”, “production” or “use” of plants (including their sub-units) for oil refining. |
2.E Technology

| | 1. | “Technology” “required” for the “development”, “production” or “use” of equipment for the conditioning and purification of raw natural gas (dehydration, sweetening, removal of impurities). |

| | 2. | “Technology” for the liquefaction of natural gas, including “technology” required for the “development”, “production” or “use” of LNG plants. |

| | 3. | “Technology” “required” for the “development”, “production” or “use” of equipment for the shipment of liquefied natural gas. |

| | 4. | “Technology” “required” for the “development”, “production” or “use” of maritime vessels specially designed for the transport of liquefied natural gas. |

| | 5. | “Technology” “required” for the “development”, “production” or “use” of tanks for the storage of crude oil and fuels. |

| | 6. | “Technology” “required” for the “development”, “production” or “use” of a refinery plant, such as:
| 6.1. | “Technology” for conversion of light olefin to gasoline; |

| 6.2. | Catalytic reforming and isomerisation technology; |

| 6.3. | Catalytic and thermal cracking technology. | | 6.1. | “Technology” for conversion of light olefin to gasoline; | 6.2. | Catalytic reforming and isomerisation technology; | 6.3. | Catalytic and thermal cracking technology. |
| 6.3. | Catalytic and thermal cracking technology. |
PETROCHEMICAL INDUSTRY

3.A Equipment

Reactors

| a. | specially designed for production of phosgene (CAS 75-44-5) and specially designed components therefor; |

| b. | for phosgenation specially designed for the production of HDI, TDI, MDI and specially designed components therefor, with the exception of secondary reactors; |

| c. | specially designed for low pressure (up to max 40 bar) polymerisation of ethylene and propylene and specially designed components therefore; |

| d. | specially designed for the thermal cracking of EDC (ethylene dichloride) and specially designed components therefor, with the exception of secondary reactors; |

| e. | specially designed for chlorination and oxychlorination in the production of vinyl chloride and specially designed components therefor, with the exception of secondary reactors; |

| | 2. | Thin film evaporators and falling film evaporators consisting of materials resistant to hot concentrated acetic acid and specially designed components therefor, and the relevant software developed therefor; |

| | 3. | Plants for the separation of hydrochloric acid by electrolysis and specially designed components therefore, and the relevant software developed therefor; |

| | 4. | Columns having a diameter larger than 5 000 mm and specially designed components therefor; |

| | 5. | Ball valves and plug valves with ceramic balls or plugs, having a nominal diameter of 10 mm or more, and specially designed components therefor; |

| | 6. | Centrifugal and/or reciprocating compressor having an installed power above 2 MW and meeting specification API 617 or API 618; |
3.B Test and inspection equipment

3.C Materials

| | 1. | Catalysts applicable to processes of production of trinitrotoluene, ammonium nitrate and other chemical and petrochemical processes used for explosive manufacturing, and the relevant software developed therefor; |

| | 2. | Catalysts used for the production of monomers such as ethylene and propylene (steam cracking units and/or Gas to petrochemicals units), and the relevant software developed therefor; |
3.D Software

| | 1. | “Software” specially designed for the “development”, “production” or “use” of equipment specified in 3.A; |

| | 2. | “Software” specially designed for the “use” in methanol plants; |
3.E Technology

| | 1. | “Technology” for the “development”, “production” or “use” of Gas-To-Liquid (GTL) or Gas-To-Petrochemicals (GTP) processes or for GTL- or GTP- plants; |

| | 2. | “Technology” “required” for the “development”, “production” or “use” of equipment designed for the manufacture of ammonia and methanol plants; |

| | 3. | “Technology” for the “production” of MEG (Mono ethylene glycol), EO (Ethylene oxide)/EG (Ethylene glycol) |
Note:

“Technology” means specific information necessary for the “development”, “production” or “use” of goods. This information takes the form of “technical data” or “technical assistance”.’;

(3)

Annex VIb is replaced by the following:

‘ANNEX VIb

Key equipment and technology referred to in Articles 10a, 10b and 10c and Article 31(1)

| HS code | Description |
| 8406 10 | Steam and other vapour turbines for marine propulsion |
| ex 8406 90 | Parts of steam turbines for marine propulsion |
| 8407 21 | Marine propulsion engines, outboard motors |
| ex 8407 29 | Marine propulsion engines, other |
| 8408 10 | Marine propulsion engines |
| ex 8409 91 00 | Parts suitable for use solely or principally with machines of subheadings 8407 21 or 8407 29 |
| ex 8409 99 00 | Parts suitable for use solely or principally with machines of subheading 8408 10 o |
| ex 8411 81 | Other gas turbine of a power not exceeding 5 000 kW, for marine propulsion |
| ex 8411 82 | Other gas turbines of a power exceeding 5 000 kW, for marine propulsion |
| ex 8468 | Machinery and apparatus for soldering, brazing or welding whether or not capable of cutting, other than those of heading 8515; gas-operated surface tempering machines and appliances |
| ex 8483 | Transmission shafts (including cam shafts and crank shafts) and cranks; bearing housings and plain shaft bearings; gears and gearing; ball or roller screws; gear boxes and other speed changers, including torque converters; flywheels and pulleys, including pulley blocks; clutches and shaft couplings (including universal joints), designed for the propulsion of vessels at the maximum possible deadweight tonnage at scantling draught of 55 000 dwt or more |
| 8487 10 | Ships’ or boats’ propellers and blades therefor |
| ex 8515 | Electric (including electrically heated gas), laser or other light or photon beam, ultrasonic, electron beam, magnetic pulse or plasma arc soldering, brazing or welding machines and apparatus, whether or not capable of cutting; electric machines and apparatus for hot spraying of metals or cermets |
| ex 9014 10 00 | Direction finding compasses, solely for the maritime industry |
| ex 9014 80 00 | Other navigational instruments and appliances, solely for the maritime industry |
| ex 9014 90 00 | Parts and accessories of subheadings 9014 10 00 and 9014 80 00, solely for the maritime industry |
| ex 9015 | Surveying (including photogram metrical surveying), hydro graphic, oceanographic, hydrological, meteorological or geophysical instruments and appliances, excluding compasses; rangefinders, solely for the maritime industry ’; |
(4)

Annex VIIb is replaced by the following:

‘ANNEX VIIb

Graphite and raw or semi-finished metals referred to in Articles 15a, 15b and 15c and Article 31(1)

Introductory note: The inclusion of goods in this Annex is without prejudice to the rules applicable to the goods included in Annexes I, II and III.

| | 1. | Graphite | 1. | Graphite |
| 1. | Graphite |
| HS code | Description |
| 2504 | Natural graphite |
| 3801 | Artificial graphite; colloidal or semi-colloidal graphite; preparations based on graphite or other carbon in the form of pastes, blocks, plates or other semi-manufactures |
| 6815 11 | Carbon fibres |
| 6815 12 | Fabrics of carbon fibres |
| 6815 13 | Other articles of carbon fibres |
| 6815 19 | Other articles of graphite or other carbon for non-electrical uses |
| 6903 10 | Other refractory ceramic goods (for example, retorts, crucibles, muffles, nozzles, plugs, supports, cupels, tubes, pipes, sheaths, rods and slide gates), other than those of siliceous fossil meals or of similar siliceous earths: containing, by weight, more than 50 % of free carbon |
| 8545 | Carbon electrodes, carbon brushes, lamp carbons, battery carbons and other articles of graphite or other carbon, with or without metal, of a kind used for electrical purposes |

| | 2. | Iron and Steel | 2. | Iron and Steel |
| 2. | Iron and Steel |
| HS code | Description |
| 7201 | Pig iron and spiegeleisen in pigs, blocks or other primary forms |
| 7202 | Ferro-alloys |
| 7203 | Ferrous products obtained by direct reduction of iron ore and other spongy ferrous products, in lumps, pellets or similar forms; iron having a minimum purity by weight of 99,94 %, in lumps, pellets or similar forms |
| 7204 | Ferrous waste and scrap; remelting scrap ingots of iron or steel |
| 7205 | Granules and powders, of pig iron, spiegeleisen, iron or steel |
| 7206 | Iron and non-alloy steel in ingots or other primary forms (excluding iron of heading 7203) |
| 7207 | Semi-finished products of iron or non-alloy steel |
| 7218 | Stainless steel in ingots or other primary forms; semi-finished products of stainless steel |
| 7224 | Other alloy steel in ingots or other primary forms; semi-finished products of other alloy steel |

| | 3. | Copper and articles thereof | 3. | Copper and articles thereof |
| 3. | Copper and articles thereof |
| HS code | Description |
| 7401 00 00 | Copper mattes; cement copper (precipitated copper) |
| 7402 00 00 | Unrefined copper; copper anodes for electrolytic refining |
| 7403 | Refined copper and copper alloys, unwrought |
| 7404 00 | Copper waste and scrap |
| 7405 00 00 | Master alloys of copper |
| 7406 | Copper powders and flakes |
| 7407 | Copper bars, rods and profiles |
| 7410 | Copper foil (whether or not printed or backed with paper, paperboard, plastics or similar backing materials) of a thickness (excluding any backing) not exceeding 0,15 mm |
| 7413 00 00 | Stranded wire, cables, plaited bands and the like, of copper, not electrically insulated |

| | 4. | Nickel and articles thereof | 4. | Nickel and articles thereof |
| 4. | Nickel and articles thereof |
| HS code | Description |
| 7501 | Nickel mattes, nickel oxide sinters and other intermediate products of nickel metallurgy |
| 7502 | Unwrought nickel |
| 7503 00 | Nickel waste and scrap |
| 7504 00 00 | Nickel powders and flakes |
| 7505 | Nickel bars, rods, profiles and wire |
| 7506 | Nickel plates, sheets, strip and foil |
| 7507 | Nickel tubes, pipes and tube or pipe fittings (for example, couplings, elbows, sleeves) |

| | 5. | Aluminium | 5. | Aluminium |
| 5. | Aluminium |
| HS code | Description |
| 7601 | Unwrought aluminium |
| 7602 | Aluminium waste and scrap |
| 7603 | Aluminium powders and flakes |
| 7605 | Aluminium wire |
| 7606 | Aluminium plates, sheets and strip, of a thickness exceeding 0,2 mm |
| 7609 00 00 | Aluminium tube or pipe fittings (for example, couplings, elbows, sleeves) |
| 7614 | Stranded wire, cables, plaited bands and the like, of aluminium, not electrically insulated |

| | 6. | Lead | 6. | Lead |
| 6. | Lead |
| HS code | Description |
| 7801 | Unwrought lead |
| 7802 00 00 | Lead waste and scrap |
| 7804 | Lead plates, sheets, strip and foil; lead powders and flakes |

| | 7. | Zinc | 7. | Zinc |
| 7. | Zinc |
| HS code | Description |
| 7901 | Unwrought zinc |
| 7902 00 00 | Zinc waste and scrap |
| 7903 | Zinc dust, powders and flakes |
| 7904 00 00 | Zinc bars, rods, profiles and wire |
| 7905 00 00 | Zinc plates, sheets, strip and foil |

| | 8. | Tin | 8. | Tin |
| 8. | Tin |
| HS code | Description |
| 8001 | Unwrought tin |
| 8002 00 00 | Tin waste and scrap |
| 8003 00 00 | Tin bars, rods, profiles and wire |

| | 9. | Other base metals, cermets, articles thereof | 9. | Other base metals, cermets, articles thereof |
| 9. | Other base metals, cermets, articles thereof |
| HS code | Description |
| ex 8101 | Tungsten (wolfram) and articles thereof, including waste and scrap, other than anti-cathodes for X-ray tubes |
| ex 8102 | Molybdenum and articles thereof, including waste and scrap, other than articles specifically designed for use in dentistry |
| ex 8103 | Tantalum and articles thereof, including waste and scrap, other than dental instruments and surgical tools and articles specially designed for orthopaedic and surgical purposes |
| 8104 | Magnesium and articles thereof, including waste and scrap |
| 8105 | Cobalt mattes and other intermediate products of cobalt metallurgy; cobalt and articles thereof, including waste and scrap |
| ex 8106 | Bismuth and articles thereof, including waste and scrap, other than that specially prepared for the preparation of chemical compounds for pharmaceutical use |
| 8108 | Titanium and articles thereof, including waste and scrap |
| 8109 | Zirconium and articles thereof, including waste and scrap |
| 8110 | Antimony and articles thereof, including waste and scrap |
| 8111 00 | Manganese and articles thereof, including waste and scrap |
| ex 8112 | Beryllium, chromium, hafnium, rhenium, thallium, cadmium, germanium, vanadium, gallium, indium and niobium (columbium), and articles of these metals, including waste and scrap other than windows for X-ray tubes |
| 8113 00 | Cermets and articles thereof, including waste and scrap ’. |
(*1) Regulation (EU) 2021/821 of the European Parliament and of the Council of 20 May 2021 setting up a Union regime for the control of exports, brokering, technical assistance, transit and transfer of dual-use items (OJ L 206, 11.6.2021, p. 1, ELI: http://data.europa.eu/eli/reg/2021/821/oj).’;

(1) OJ L, 2026/762, 31.3.2026, ELI: http://data.europa.eu/eli/dec/2026/762/oj.

(2) Council Decision 2010/413/CFSP of 26 July 2010 concerning restrictive measures against Iran and repealing Common Position 2007/140/CFSP (OJ L 195, 27.7.2010, p. 39, ELI: http://data.europa.eu/eli/dec/2010/413/oj).

(3) Council Regulation (EU) No 267/2012 of 23 March 2012 concerning restrictive measures against Iran and repealing Regulation (EU) No 961/2010 (OJ L 88, 24.3.2012, p. 1, ELI: http://data.europa.eu/eli/reg/2012/267/oj).

(4) Council Decision (CFSP) 2025/1972 of 29 September 2025 amending Decision 2010/413/CFSP concerning restrictive measures against Iran (OJ L, 2025/1972, 29.9.2025, ELI: http://data.europa.eu/eli/dec/2025/1972/oj).

(5) Council Regulation (EC) No 428/2009 of 5 May 2009 setting up a Community regime for the control of exports, transfer, brokering and transit of dual-use items (OJ L 134, 29.5.2009, p. 1, ELI: http://data.europa.eu/eli/reg/2009/428/oj).

(6) Regulation (EU) 2021/821 of the European Parliament and of the Council of 20 May 2021 setting up a Union regime for the control of exports, brokering, technical assistance, transit and transfer of dual-use items (OJ L 206, 11.6.2021, p. 1, ELI: http://data.europa.eu/eli/reg/2021/821/oj).

ELI: http://data.europa.eu/eli/reg/2026/759/corrigendum/2026-04-23/oj

ISSN 1977-0677 (electronic edition)

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Named provisions

Article 2 Article 2(2) Article 2(3) Annex I Part A of Annex I

Mentioned entities

European Commission

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April 24, 2026

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Classification

Agency

EU Council

Published

April 23rd, 2026

Instrument

Rule

Branch

Executive

Joint with

European Commission High Representative for Foreign Affairs and Security Policy

Legal weight

Binding

Stage

Corrected

Change scope

Minor

Document ID

OJ L 2026/90314

Supersedes

Council Regulation (EU) 2026/759

Who this affects

Applies to

Importers and exporters Manufacturers Government agencies

Industry sector

4231 Wholesale Trade

Activity scope

Dual-use goods export controls Sanctions enforcement Nuclear non-proliferation

Geographic scope

European Union EU

Taxonomy

Primary area

Sanctions

Operational domain

Compliance

Compliance frameworks

ITAR/EAR

Topics

Export Controls International Trade

Corrigendum to Council Regulation (EU) 2026/759 Amending Iran Restrictive Measures

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