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• ANNEX III - CATEGORY 1 — SPECIAL MATERIALS AND RELATED EQUIPMENT
• ANNEX II - List of other goods and technology, including software, referred to in Article 3a

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Notes

• Hydrazine replacement fuels as follows: 1. 2-Dimethylaminoethylazide (DMAZ) (CAS 86147-04-8).
• Trimethylolethane trinitrate (TMETN) (CAS 3032-55-1);
• Diethylene glycol dinitrate (DEGDN) (CAS 693-21-0)
• Triethylene glycol dinitrate (TEGDN) (CAS 111-22-8);
• 2-Nitrodiphenylamine (CAS 119-75-5);
• Carboranes, decaboranes, pentaboranes and derivatives thereof
• Ferrocene derivatives, as follows:a. Catocene (CAS 37206-42-1);b. Ethyl ferrocene (CAS 1273-89-8);c. Propyl ferrocene;d. n-Butyl ferrocene (CAS 31904-29-7);e. Pentyl ferrocene (CAS 1274-00-6);f. Dicyclopentyl ferrocene (CAS 125861-17-8);g. Dicyclohexyl ferrocene;h. Diethyl ferrocene (CAS 1273-97-8);i. Dipropyl ferrocene;j. Dibutyl ferrocene (CAS 1274-08-4);k. Dihexyl ferrocene (CAS 93894-59-8);l. Acetyl ferrocene (CAS 1271-55-2) / 1,1′-diacetyl ferrocene (CAS 1273-94-5);m. Ferrocene carboxylic acid (CAS 1271-42-7) / 1,1′- Ferrocenedicarboxylic acid (CAS 1293-87-4);n. Butacene (CAS 125856-62-4);o. Other ferrocene derivatives usable as rocket propellant burning rate modifiers;Note:Item 4.C.6.c.2.o does not control ferrocene derivatives that contain a six carbon aromatic functional group attached to the ferrocene molecule.
• 4,5 diazidomethyl-2-methyl-1,2,3-triazole (iso- DAMTR);
• Metal powders of any of the following: zirconium (CAS 7440-67-7), beryllium (CAS 7440-41-7), magnesium (CAS 7439-95-4) or alloys of these, if at least 90 % of the total particles by particle volume or weight are made up of particles of less than 60 μm (determined by measurement techniques such as using a sieve, laser diffraction or optical scanning), whether spherical, atomised, spheroidal, flaked or ground, consisting of 97 % by weight or more of any of the above mentioned metals;Note:In a multimodal particle distribution (e.g. mixtures of different grain sizes) in which one or more modes are controlled, the entire powder mixture is controlled.Technical Note:The natural content of hafnium (CAS 7440-58-6) in the zirconium (typically 2 % to 7 %) is counted with the zirconium.
• Spherical or spheroidal aluminium powder (CAS 7429-90-5) in particle size of less than 200 × 10-6m (200 μm) and an aluminium content of 97 % by weight or more, if at least 10 % of the total weight is made up of particles of less than 63 μm, according to ISO 2591-1:1988 or national equivalents;Technical Note:A particle size of 63 μm (ISO R-565) corresponds to 250 mesh (Tyler) or 230 mesh (ASTM standard E-11).
• Polymeric substances, as follows:a. Carboxy — terminated polybutadiene (including carboxyl — terminated polybutadiene) (CTPB);b. Hydroxy — terminated polybutadiene (including hydroxyl — terminated polybutadiene) (HTPB);c. Glycidyl azide polymer (GAP);d. Polybutadiene — Acrylic Acid (PBAA);e. Polybutadiene — Acrylic Acid — Acrylonitrile (PBAN) (CAS 25265-19-4 / CAS 68891-50-9);f. Polytetrahydrofuran polyethylene glycol (TPEG).Technical Note:Polytetrahydrofuran polyethylene glycol (TPEG) is a block co-polymer of poly 1,4-Butanediol (CAS 110-63-4) and polyethylene glycol (PEG) (CAS 25322-68-3).g. Polyglycidyl nitrate (PGN or poly-GLYN) (CAS 27814-48-8)
• Hydrazine derivatives as follows:1. Monomethylhydrazine (MMH) (CAS 60-34-4);2. Unsymmetrical dimethylhydrazine (UDMH) (CAS 57-14-7);3. Hydrazine mononitrate (CAS 13464-97-6);4. Trimethylhydrazine (CAS 1741-01-1);5. Tetramethylhydrazine (CAS 6415-12-9);6. N,N diallylhydrazine (CAS 5164-11-4);7. Allylhydrazine (CAS 7422-78-8);8. Ethylene dihydrazine (CAS 6068-98-0);9. Monomethylhydrazine dinitrate;10. Unsymmetrical dimethylhydrazine nitrate;11. Hydrazinium azide (CAS 14546-44-2);12. 1,1-Dimethylhydrazinium azide (CAS 227955-52-4) / 1,2-Dimethylhydrazinium azide (CAS 299177-50-7);13. Hydrazinium dinitrate (CAS 13464-98-7);14. Diimido oxalic acid dihydrazine (CAS 3457-37-2);15. 2-hydroxyethylhydrazine nitrate (HEHN);16. Hydrazinium perchlorate (CAS 27978-54-7);17. Hydrazinium diperchlorate (CAS 13812-39-0);18. Methylhydrazine nitrate (MHN) (CAS 29674-96-2);19. 1,1-Diethylhydrazine nitrate (DEHN) / 1,2-Diethylhydrazine nitrate (DEHN) (CAS 363453-17-2);20. 3,6-dihydrazino tetrazine nitrate (DHTN);Technical note:3,6-dihydrazino tetrazine nitrate is also referred to as 1,4-dihydrazine nitrate.
• Metal powders of either boron (CAS 7440-42-8) or boron alloys with a boron content of 85 % or more by weight, if at least 90 % of the total particles by particle volume or weight are made up of particles of less than 60 μm (determined by measurement techniques such as using a sieve, laser diffraction or optical scanning), whether spherical, atomised, spheroidal, flaked or groundNote:In a multimodal particle distribution (e.g. mixtures of different grain sizes) in which one or more modes are controlled, the entire powder mixture is controlled.
• Oxidiser substances usable in liquid propellant rocket engines as follows:1. Dinitrogen trioxide (CAS 10544-73-7)2. Nitrogen dioxide (CAS 10102-44-0) / dinitrogen tetroxide (CAS 10544-72-6);3. Dinitrogen pentoxide (CAS 10102-03-1);4. Mixed Oxides of Nitrogen (MON);Technical Note:Mixed Oxides of Nitrogen (MON) are solutions of Nitric Oxide (NO) in Dinitrogen Tetroxide/Nitrogen Dioxide (N2O4/NO2) that can be used in missile systems. There are a range of compositions that can be denoted as MONi or MONij where i and j are integers representing the percentage of Nitric Oxide in the mixture (e.g. MON3 contains 3 % Nitric Oxide, MON25 25 % Nitric Oxide. An upper limit is MON40, 40 % by weight).5. Inhibited Red Fuming Nitric Acid (IRFNA) (CAS 8007-58-7);6. Compounds composed of fluorine and one or more of other halogens, oxygen or nitrogen;Note:Item 4.C.4.a.6. does not control Nitrogen Trifluoride (NF3) (CAS 7783-54- 2) in a gaseous state as it is not usable for missile applications.
• High energy density materials, usable in the systems specified in 1.A. or 19.A., as follows:1. Mixed fuels that incorporate both solid and liquid fuels, such as boron slurry, having a mass- based energy density of 40 × 106J/kg or greater;2. Other high energy density fuels and fuel additives (e.g., cubane, ionic solutions, JP-10) having a volume-based energy density of 37,5 × 109J/m3or greater, measured at 20 °C and one atmosphere (101,325 kPa) pressure.Note:Item 4.C.2.f.2. does not control fossil refined fuels and biofuels produced from vegetables, including fuels for engines certified for use in civil aviation, unless specifically formulated for systems specified in 1.A. or 19.A.