Other nuclear list related equipment.

Fermentation equipment and vessels, and specially designed components.

Munitions, rockets and missile warheads capable of disseminating biological weapons agents.

Bacillus anthracis

Bacillus cereus

Bacillus subtilis

Bacillus megaterium

Bacillus thuringensis

Brucella abortus

Brucella melitensis

Brucella suis

Chlamydia psittaci

Clostridium botulinum

Clostridium perfringens

Francisella tularensis

Pseudomonas mallei

also known as: Burkholderia mallei

Pseudomonas pseudomallei

also known as: Burkholderia pseudomallei

Salmonella typhi

also known as: Salmonella enterica var typhi

Serratia marcescens

Shigella dysenteriae

Vibrio cholerae

Yersinia pestis

also known as: Yersinia pseudotuberculosis var pestis

Xanthomonas albilineans

also known as: Xanthomonas campestris pv. citri types A,B,C,D,E;

Xanthomonas citri;

Xanthomonas campestris pv. aurantifolia;

Xanthomonas campestris pv. citrumelo

Mycoplasma mycoides

Coxiella burnetii

Rickettsia prowatekii

Rickettsia quintana

also known as: Rochalimgen quintana;

Burtonella quintana

Rickettsia rickettsii

African swine fever virus

Avian influenza virus

Chikungunya virus

Congo-Crimean haemorrhagic fever virus

Dengue fever virus

Eastern equine encephalitis virus

Ebola virus

Foot and mouth disease virus

Goat pox virus

Hantaan virus

Human influenza

Japanese encephalitis virus

Junin virus

Lassa fever virus

Lymphocytic choriomeningitis virus

Lyssa virus

also known as: Rabies virus

Machupo virus

Marburg virus

Monkey pox virus

Newcastle disease virus

Peste des petits ruminants virus

Porcine herpes virus

also known as: Aujeszky's disease

Rift Valley fever virus

Rinderpest virus

Sheep pox virus

Swine fever virus

also known as: Hog cholera virus

Swine vesicular disease

also known as: Porcine enterovirus type 9

Teschen disease virus

Tick-borne encephalitis virus

also known as: Russian Spring-Summer encephalitis virus

Variola virus

Venezuelan equine encephalitis virus

Vesicular stomatitis virus

Western equine encephalitis virus

White pox virus

Yellow fever virus

Abrin, including purified or crude material

Botulinum toxins, including purified or crude material

Clostridium perfringens toxins, including purified or crude material

Conotoxin, including purified or crude material

Diphtheria exotoxin, including purified or crude material

Microcystins

including purified or crude material

also known as: Cyanoginosins

Modeccin, including purified or crude material

Pseudomonas exotoxin, including purified or crude material

*Ricin (CAS No. 9009-86-3)

including purified or crude material;

*Saxitoxin (CAS No. 35523-89-8)

including purified or crude material;

Also see C02080000-21

Shiga toxin, including purified or crude material

Staphylococcus aureus toxins, including purified or crude material

Tetrodotoxin, including purified or crude material

Verotoxin, including purified or crude material

Volkensin, including purified or crude material

Colletotrichum cof feanum var. virulans

Cochliobolus miyabeanus

also known as: Helminthosporium oryzae

Magnaporthe grisea

also known as: Pyricularia grisea;

Pyricularia oryzae

Microcyclus ulei

also known as: Dothidella ulei

Puccinia graminis

also known as: Puccinia graminis f. sp. tritici

Puccinia striiformis

also known as: Puccinia glumarum

Eukaryotic (non-microbial) organism which produce any listed toxin in B0105xxxx-31

The listed microorganisms, in B0101xxxx-31, B0102xxxx-31, B0103xxxx-31, B0103xxxx-31, and B0106xxxx-31 when they have been genetically modified.

Genetically modified microorganisms or genetic material that contain nucleic acid sequences derived from any of the listed microorganisms in B01xxxxxx-31, or that contain nucleic acid sequences associated with pathogenicity determinants of any listed microorganism (B01xxxxxx-31); or that contain nucleic acid sequences associated with any listed toxin (B0105xxxx-31).

Genetically modified variants of eukaryotic (nonmicrobial) organisms which produce any listed toxin in B0105xxxx-31.

Facilities, rooms or other enclosures, for biohazard containment and decontamination , as follows:

a. meeting the physical containment criteria for P3 or P4 (BL3, BL4, L3, L4) biological containment as specified in the WHO Laboratory Biosafety Manual (Geneva, 1993); and,

b. constructed such that the number of particles of 0.5 microns in diameter in the contained air does not exceed 35,000 particles per cubic metre.

Biological safety cabinets meeting Class I, II, or III standards as specified in the WHO Laboratory Biosafety Manual, including flexible film isolators, dry boxes, glove boxes, anaerobic chambers, interconnected cabinet lines, isolator lines and secondary containment systems designed to enclose fermenters or downstream processing equipment, and specially designed components therefor;

HEPA filters

Rubber gloves specially designed for use with safety cabinets and biological safety cabinets.

Autoclaves designed to sterilise infectious material, with an internal volume equal to or greater than 0.3 cubic metres, and specially designed components therefor.

Positive pressure air-fed suits, half suits, helmets and respirators, and specially designed components therefor.

Also see C100408xx-27

Fermenters, bioreactors, chemostats, and continuous flow fermentation systems and specially designed components therefor.

Vessels suitable for use for the cultivation of:

microorganisms (B0101xxxx-31, B0102xxxx-31, B0103xxxx-31 and B0104xxxx-31); or

eukaryotic cells (B0106xxxx-31); or

for toxin production (B0105xxxx-31),

capable of operating without the propagation of aerosols, and capable of in situ steam sterilisation in the closed state, and specially designed components therefor.

Orbital or reciprocal shakers with a total flask capacity greater than 5 litres, and specially designed components therefor.

Shaking incubators with a total flask capacity greater than 5 litres, and specially designed components therefor.

Centrifugal separators or decanters for continuous or semi-continuous operation, usable for processing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs); and specially designed components therefor.

Continuous flow centrifuge rotors usable for processing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs); and specially designed components therefor.

Plate press filter separators equipment usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs), and specially designed components therefor.

Cross-flow and tangential filtration equipment with a filter area equal to or greater than 0.5 m², usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs), and specially designed components therefor.

Spray drying equipment usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs and specially designed components therefor.

Freeze-drying (lyophilisation) equipment with a condenser capacity greater than 1 kg of ice in 24 hours, usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs), and specially designed components therefor.

Pressure cell disruption and continuous flow ultrasonic cell disruption equipment, usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs), and specially designed components therefor.

Chromatography columns with internal volumes greater than 2 litres, and specially designed end pieces and flow adapters for such columns, usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs), and specially designed components therefor.

Milling equipment capable of producing particle sizes of 10 microns or less, usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs), and specially designed components therefor.

Drum drying equipment, usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs), and specially designed components therefor.

Jacketed vessels, usable for processing, handling, transporting or storing microorganisms, their products or components excluding personal and household equipment, but including toxins, or other biological material (including foodstuffs), and specially designed components therefor.

Formulated powdered complex media or concentrated liquid complex media for growth of microorganisms.

Immunological assay systems for microorganisms, toxins, or genetic material in B01xxxxxx-31 and specially designed reagents therefor.

Gene probe assay systems for microorganisms, toxins, or genetic material in B01xxxxxx-31 and specially designed reagents therefor.

Biological agent detection systems for microorganisms, toxins, or genetic material in B01xxxxxx-31 and especially designed reagents therefor, designed for biological defence or civil defence applications.

Nucleic acid sequencing equipment for use in molecular biology research, and specially designed components therefor.

Electroporation or biolistics equipment for use in molecular biology research, and specially designed components therefor.

Thermal cyclers for use in molecular biology research, and specially designed components therefor.

Specially designed automatic data collection systems for use in molecular biology research, and specially designed components therefor.

Transilluminators for use in molecular biology research, and specially designed components therefor.

Electrophoresis equipment for use in molecular biology research, and specially designed components therefor.

Derivatized solid supports for solid phase nucleotide synthesis for use in molecular biology research, and specially designed components therefor.

Dimethoxytrityl (DMT)-ribonucleosides, reagents for use in molecular biology research.

Dimethoxytrityl (DMT)-deoxyribonucleosides, reagents for use in molecular biology research.

Crop sprayers capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Aircraft sprayers and associated spray tanks capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Sprayers, other than those described in B08010000-40 and B08020000-40, capable of chassis mounting, and associated spray tanks capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Jet engine disseminators capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Aerosol disseminators capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Droplet disseminators capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Dry powder disseminators including dry aerosol disseminators, venturi airmovers and nebulisers, capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Mist generators capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Foggers including pulse jet disseminators capable of dispersing aerosols at a flow rate exceeding 1 litre of liquid suspension per minute or 10 g of dry material per minute, and specially designed components therefor.

Aerosolization drums, cabinets, chambers, rooms or other enclosures usable in the study of aerosols, and specially designed components therefor.

Nose-only aerosolization equipment but not devices for personal prophylaxis or therapy for medical conditions usable in the study of aerosols, and specially designed components therefor.

Aerodynamic particle-sizing equipment usable in the study of aerosols, and specially designed components therefor.

Equipment designed for the microencapsulation of living organisms, their products or components including toxins, or other biological material.

Vaccines for microorganisms or toxins in B01xxxxxx-31, whether for use with humans or animals and whether licensed, unlicensed or experimental.

Documents information, or technology for the design, development, use, storage, manufacture, maintenance or support of entries Bxxxxxxxx-xx, or of biological weapons or any component thereof, or of biological defence and training activities or defence.

Software for the design, development, use, storage, manufacture, maintenance or support of entries Bxxxxxxxx-xx, or of biological weapons or any component thereof, or of biological defence and training activities or defence; and any database or software pertaining to microorganisms, toxins and genetic material except those containing information generally available to the public.

Munitions, rockets and missile warheads capable of disseminating biological weapons agents.

Chemicals, except those specified in C02xxxxxx.21, containing a phosphorus atom to which is bonded one H, alkyl or alkyl substitute group but no further carbon atoms

Dialkyl or dialkyl-substituted (Me, monochloro-Me, Et, n-Pr or i-Pr) N,N-dialkyl or N,N-dialkyl substitutes (Me, Et, n-Pr or i-Pr)-phosphoramidates

Arsenic trichloride (CAS No. 7784-34-1)

2,2-Diphenyl-2-hydroxyacetic acid (CAS No. 76-93-7)

Quinuclidin-3-ol (CAS No. 1619-34-7)

Quinuclidin-3-ol hydrochloride (CAS No. 6238-13-7)

N,N-Dialkyl (Me, Et, n-Pr or i-Pr) aminoethyl-2-chloride and corresponding protonated salts

N,N-Dialkyl (Me, Et, n-Pr or i-Pr) aminoethane-2-ol and corresponding protonated salts

N,N-Dialkyl (Me, Et, n-Pr or i-Pr) aminoethane-2-thiol and corresponding protonated salts

Phosgene (CAS No. 75-44-5)

Cyanogen chloride (CAS No. 506-77-4)

Hydrogen cyanide (CAS No. 74-90-8)

Trichloronitromethane (CAS No. 76-06-2)

Phosphorus oxychloride (CAS No. 10025-87-3)

Phosphorus trichloride (CAS No. 7719-12-2)

Phosphorus pentachloride (CAS No. 10026-13-8)

Trimethyl phosphite (CAS No. 121-45-9)

Triethyl phosphite (CAS No. 122-52-1)

Dimethyl phosphite (CAS No. 868-85-9)

Diethyl phosphite (CAS No. 762-04-9)

Diisopropylphosphite (CAS No. 1809-20-7)

Triisopropylphosphite (CAS No. 116-17-6)

Sulphur monochloride (CAS No. 10025-67-9)

Sulphur dichloride (CAS No. 10545-99-0)

Thionyl chloride (CAS No. 7719-09-7)

Cyclohexanol (CAS No. 108-93-0)

Hydrogen fluoride (CAS No. 7664-39-3)

ortho-Chlorobenzylidenemalononitrile (CAS No. 2698-41-1)

Potassium fluoride (CAS No. 7789-23-3)

Ammonium bif1uoride (CAS No. 1341-49-7)

Sodium bifluoride (CAS No. 1333-83-1)

Sodium fluoride (CAS No. 7681-49-4)

Potassium bifluoride (CAS No. 7789-29-9)

Sodium sulphide (CAS No. 1313-82-2)

Hydrogen sulphide (CAS No. 7783-06-4)

Carbon disulphide (CAS No. 75-15-0)

Phosphorus pentasulphide (CAS No. 1314-80-3)

Chloroethanol (CAS No. 107-07-3)

isoPropanol (CAS No. 67-63-0)

Dimethylamine (CAS No. 124-40-3)

Dimethylamine hydrochloride (CAS No. 506-59-2)

Potassium cyanide (CAS No. 151-50-8)

Sodium cyanide (CAS No. 143-33-9)

Triethanolamine (CAS No. 102-71-6)

Triethanolamine hydrochloride (CAS No. 637-39-8)

Diisopropylamine (CAS No. 108-18-9)

Diisopropylamine hydrochloride (CAS No. 819-79-4)

Methyl diethanolamine (CAS No. 105-59-9)

Ethyl diethanolamine (CAS No. 139-87-7)

Ethyl diethanolamine hydrochloride (CAS No. 58901-15-8)

Methyl benzilate (CAS No. 76-89-1)

O,O-Diethyl phosphorothioate (CAS No. 2465-65-8)

O,O-Diethyl phosphorodithioate (CAS No. 298-06-6)

Ethylene oxide (CAS No. 75-21-8)

Propylene oxide (CAS No. 75-56-9)

Hydroxy-1-methylpiperidine (CAS No. 3554-74-3)

Hydroxy-1-methylpiperidine hydrochloride (CAS No. 164-45-6)

Quinuclidone (CAS No. 3731-38-2)

Quinuclidone hydrochloride (CAS No. 1193-65-3)

Phosphorus (CAS No. 7723-14-0)

Sulphur (CAS No. 7704-34-9)

Chlorine (CAS No. 7782-50-5)

Fluorine (CAS No. 7782-41-4)

*O-Alkyl (£ C₁₀, including cycloalkyl) alkyl (Me, Et, n-Pr or i-Pr)-phosphonofluoridates

*O-Alkyl (£ C₁₀- including cycloalkyl) N,N-dialkyl (Me, Et, n-Pr or i-Pr) phosphoramidocyanidates

*O-Alkyl (H or £ C₁₀, including cycloalkyl) S-2-dialkyl (Me, Et, n-Pr or i-Pr)-aminoethyl alkyl (Me, Et, n-Pr or i-Pr) phosphonothiolates or corresponding alkylated and protonated salts

e.g. O-Ethyl S-2{-(N,N-diisopropylamino)ethyl}methylphosphonothiolate (CAS No. 50782-69-9)

*Sulphur mustards

*Lewisites

*Nitrogen mustards

*3-Quinuclidinyl benzilate (CAS No. 6581-06-2)

*Saxitoxin (CAS No. 35523-89-8)

including purified or crude material;

*Ricin (CAS No. 9009-86-3)

including purified or crude material;

Also see B01050900-31

*Alkyl (Me, Et, n-Pr or i-Pr) phosphonyldihalides

*Dimethylmethylphosphonate (CAS No. 756-79-6)

*O-Alkyl (H or £ C₁₀, including cycloalkyl), O-2-Dialkyl (Me, Et, n-Pr or i-Pr)-aminoethyl alkyl (Me, Et, n-Pr or i-Pr) phosphonites and corresponding alkylated salts and protonated salts

*O-Alkyl (£ C₁₀, including cycloalkyl) alkyl (Me, Et, n-Pr or i-Pr)-phosphonochloridates

*N,N-Dialkyl (Me, Et, n-Pr or i-Pr) phosphoramidic dihalides

*bis(2-Hydroxyethyl)sulphide (CAS No. 111-48-8)

*3,3-Dimethylbutan-2-ol (CAS No. 464-07-3)

*3,3-Dimethylbutanone (CAS No. 75-97-8)

*O,O-Diethyl S-(2-(diethylamino)ethyl)) phosphorothiolate and corresponding alkylated and protonated salts

*1,1,3,3,3-Pentafluoro-2-(trifluoromethyl)-1-propene (CAS No. 382-21-8)

'Corrosion resistant' (see ‘Compendium of Terms’) reactor vessels with a capacity of 0.050 m³ (50 litres) or more.

'Corrosion resistant' (see ‘Compendium of Terms’) condensers.

'Corrosion resistant' (see ‘Compendium of Terms’) heat exchangers.

'Corrosion resistant' (see ‘Compendium of Terms’) distillation columns.

'Corrosion resistant' (see ‘Compendium of Terms’) scrubbers.

'Corrosion resistant' (see ‘Compendium of Terms’) tanks and other storage vessels volume of 0.05 m³ (50 litres) or more.

Halogen transport containers.

Sheets made of 'corrosion resistant'(see ‘Compendium of Terms’) metal or alloy with a surface area of more than 1 m² and a thickness of 4 mm or more.

'Corrosion resistant' (see ‘Compendium of Terms’) pumps with a maximum flow-rate of 0.01 m³ (10 litres) per minute or more (under standard temperature of 293 K, i.e. 20⁰ C, and standard pressure conditions of 101.30 kPa, i.e. 101.30 kilonewton per square metre), including magnetic pumps and those using squeezers or progressive cavity tubing pumps (including peristaltic or roller pumps in which only the elastometric tubing is corrosion resistant).

'Corrosion resistant' (see ‘Compendium of Terms’) vacuum pumps with a maximum flow-rate of 0.08 m³ (80 litres) per minute or more under the same standard conditions.

'Corrosion resistant' (see ‘Compendium of Terms’) pipes with an inner diameter of 12.5 mm or more.

'Corrosion resistant' (see ‘Compendium of Terms’) double-walled pipes with an inner diameter of 12.5 mm or more.

'Corrosion resistant' (see ‘Compendium of Terms’) valves with a smallest inner diameter of 12.5 mm or more.

'Corrosion resistant' (see ‘Compendium of Terms’) remote-controlled filling equipment.

Incineration equipment designed for the disposal of toxic chemicals:

a. with an average combustion chamber temperature of over 1273 K (1000⁰ C); or

b. with catalytic incineration over 623 K (350⁰ C).

Equipment and instruments capable of detecting, measuring or recording the air concentration of toxic organic substances or organic compounds:

a. containing the elements chlorine, fluorine, phosphorus or sulphur with a detection threshold from 0.3 mg/m³ ; or

b. suitable for detection or measuring levels of cholinesterase-inhibitors in the air.

External ventilated semi- or full-protection personal suits designed for protection against toxic chemicals listed under C01xxxxxx-22, or C02xxxxxx-21.

Also see B02060000-34

Autonomous respirators designed for protection against toxic chemicals listed under C01xxxxxx-22, or C02xxxxxx-21.

Also see B02060000-34

Air filtration equipment with liquid or solid adsorption agent designed for protection against toxic chemicals listed under C01xxxxxx-22, or C02xxxxxx-21.

Also see B02060000-34

Production equipment for the subsystems specified.

Production facilities for the subsystems specified.

Technology according to the General Technology Note for the development, production or use of the subsystems, production equipment, or production facilities specified.

Production equipment for the subsystems specified.

Production facilities for the subsystems specified.

Technology according to the General Technology Note for the development, production or use of the subsystems, production equipment, or production facilities specified.

Production equipment for the subsystems specified.

Production facilities for the subsystems specified.

Technology according to the General Technology Note for the development, production or use of the subsystems, production equipment, or production facilities specified.

Complete thrust vector controls usable in missile systems.

This includes:

Production equipment for the subsystems specified.

Production facilities for the subsystems specified.

Technology according to the General Technology Note for the development, production or use of the subsystems, production equipment, or production facilities specified.

Complete warhead or weapon safing, arming, fuzing and firing mechanisms usable in missile systems

Production equipment for the subsystems specified.

Production facilities for the subsystems specified

Technology according to the General Technology Note for the development, production or use of the subsystems, production equipment, or production facilities specified.

Flow-forming machines (including machines combining the function of spin-forming and flow-forming), components and software therefor:

a. Which, according to the manufacturer’s technical specification, are capable of being equipped with numerical control units or computer control, even when not equipped with such units at delivery; and

b. With more than two axes which are capable of being co-ordinated simultaneously for contouring control.

Technology according to the General Technology Note for the development, production, or use of the equipment, components or software specified.

Also see N53000000-10

Hybrid rocket motors usable in missile systems, and components therefor.

Production equipment for the subsystems and components specified.

Production facilities for the subsystems and components specified.

Technology according to the General Technology Note for the development, production or use of the subsystems, components, production equipment or production facilities specified.

Ramjet/scramjet/pulse jet/combined cycle engines, including devices to regulate combustion, usable in missile systems, and components therefor.

Production equipment for the subsystems and components specified.

Production facilities for the subsystems and components specified.

Technology according to the General Technology Note for the development, production or use of the subsystems, components, production equipment or production facilities specified.

Lightweight turbojet, turbofan and turbocompound engines, that are small and fuel efficient, as follows:

Production equipment for the subsystems specified.

Production facilities for the subsystems specified.

Technology according to the General Technology Note for the development, production or use of the subsystems, production equipment or production facilities specified.

Rocket motor cases, interior lining, insulation and nozzles therefor usable in missile systems.

Production equipment for the components specified.

Production facilities for the components specified.

Technology according to the General Technology Note for the development, production or use of the components, production equipment or production facilities specified.

Staging mechanisms, separation mechanisms and interstages therefor, and clustering mechanisms, usable in missile systems.

Production equipment for the subsystems specified.

Production facilities for the subsystems specified.

Technology according to the General Technology Note for the development, production or use of the subsystems, production equipment or production facilities therefor.

Liquid fuel control systems and components therefor including liquid and slurry propellant (including oxidisers) control systems usable in missile systems, and components therefor:

- designed or modified to operate in vibration environments of more than 5 g RMS between 20 Hz and 2,000 Hz.

Production equipment for the systems, subsystems and components specified.

Production facilities for the systems, subsystems and components specified.

Technology according to the General Technology Note for the development, production or use of the systems, subsystems, components, production equipment or production facilities specified.

Servo valves, for liquid rocket propulsion systems, designed for flow rates of 5 litres per minute or greater, at an absolute pressure of 4,000 kPa (600 psi) or greater, with an actuator response time of less than 100 msec, and designed or modified to operate in vibration environments of more than 5 g RMS between 20 Hz and 2,000 Hz.

Production equipment for the components specified.

Production facilities for the components specified.

Technology according to the General Technology Note for the development, production or use of the components, production equipment or production facilities specified.

Pumps, for liquid propellants, usable in missile systems, and designed or modified to operate in vibration environments of more than 5 g RMS between 20 Hz and 2,000 Hz:

Production equipment for the components specified.

Production facilities for the components specified.

Technology according to the General Technology Note for the development, production or use of the components, production equipment or production facilities specified.

Hydrazine with a concentration of more than 70 percent and its derivatives including monomethylhydrazine (MMH).

Technology according to the General Technology Note for the development, production or use of goods specified.

Unsymmetric dimethylhydrazine (UDMH).

Technology according to the General Technology Note for the development, production or use of goods specified.

Ammonium perchlorate, and other solid oxidizers;

including:

Technology according to the General Technology Note for the development, production or use of goods specified.

Spherical aluminium powder with particles of uniform diameter of less than 500 x 10^-6m (500 micrometer) and an aluminium content of 97 percent by weight or greater.

Technology according to the General Technology Note for the development, production or use of goods specified.

Metal fuels in particle sizes less than 500 x 10^-6 m (500 microns), whether spherical, atomized, spheroidal, flaked or ground, consisting of 97 percent by weight or more of any of the following:

Technology according to the General Technology Note for the development, production or use of goods specified.

Also see N02020000-02, N09000000-02 and N11000000-10

Cyclotetramethylenetetranitroamine (HMX); or

Cyclotrimethylenetrinitroamine (RDX).

Technology according to the General Technology Note for the development, production or use of goods specified.

Also see N74010000-11 and N74020000-11

Perchlorates, chlorates or chromates mixed with powdered metals or other high energy fuel components.

Technology according to the General Technology Note for the development, production or use of goods specified.

Carboranes, decaboranes, pentaboranes and derivatives thereof.

Technology according to the General Technology Note for the development, production or use of goods specified.

Liquid oxidizers, as follows:

Technology according to the General Technology Note for the development, production or use of goods specified.

Also see N07000000-02

Carboxyl-terminated polybutadiene (CTPB).

Technology according to the General Technology Note for the development, production or use of goods specified.

Hydroxyl-terminated polybutadiene (HTPB).

Technology according to the General Technology Note for the development, production or use of goods specified.

Glycidyl azide polymer (GAP).

Technology according to the General Technology Note for the development, production or use of goods specified.

Polybutadiene-acrylic acid (PBAA).

Technology according to the General Technology Note for the development, production or use of goods specified.

Polybutadiene-acrylic acid-acrylonitrile (PBAN).

Technology according to the General Technology Note for the development, production or use of goods specified.

Oxetanes including polymers of nitromethyl oxetane (NIMMO), and

3,3 bis(azidomethyl oxetane) (BAMO).

Technology according to the General Technology Note for the development, production or use of goods specified.

Composite propellants including case bonded propellants and propellants with nitrated binders.

Technology according to the General Technology Note for the development, production or use of goods specified.

Non-composite propellants including double base propellants.

Technology according to the General Technology Note for the development, production or use of goods specified.

Boron Slurry or other high energy density propellants having an energy density of 40 x 10⁶ Joules/kg or greater.

Technology according to the General Technology Note for the development, production or use of goods specified.

Bonding agents used as propellant additives as follows:

Technology according to the General Technology Note for the development, production or use of goods specified.

Triphenyl bismuth (TPB).

Technology according to the General Technology Note for the development, production or use of goods specified.

Burning rate modifiers, as follows:

Technology according to the General Technology Note for the development, production or use of goods specified.

Nitrate esters and nitratoplasticizers, as follows:

Technology according to the General Technology Note for the development, production or use of goods specified.

Stabilizers, as follows:

Technology according to the General Technology Note for the development, production or use of goods specified.

Production equipment for the production, handling or acceptance testing of propellants or propellant constituents described in M020204xx-52, and specially designed components therefor.

Technology according to the General Technology Note for the development, production or use of goods specified.

Batch mixers for the production of solid propellants or propellant constituents described in M020204xx-52, with provision for mixing under vacuum in the range of zero to 13.326 kPa and with temperature control capability of the mixing chamber, and having:

and specially designed components therefor.

Technology according to the General Technology Note for the development, production or use of goods specified.

Equipment for the production of atomised or spherical metallic powder in a controlled environment, and specially designed components therefor.

Technology according to the General Technology Note for the development, production or use of goods specified.

Fluid energy mills for grinding or milling ammonium perchlorate, RDX or HMX, and specially designed components therefor.

Technology according to the General Technology Note for the development, production or use of goods specified.

Integrated flight instrument systems, which include gyrostabilisers or automatic pilots and components therefor, usable in missile systems.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment, components, or software specified.

Gyro-astro compasses and other devices which derive position or orientation by means of automatically tracking celestial bodies or satellites and components therefor.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment, components, or software specified.

Accelerometers with a threshold of 0.5 g or less, or a linearity error less than 0.25 percent of full scale output, or both, which are designed for use in inertial navigation systems or in guidance systems of all types except those specially designed and developed as MWD (Measurement While Drilling) sensors for use in downhole well service operations.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment, components, or software specified.

All types of gyros usable in missile systems, with a rated drift rate stability of less than 5 degree (1 sigma or rms) per hour in a 1 g environment and components therefor.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment, components, or software specified.

Inertial or other equipment using accelerometers specified in M02030130-55 or gyros specified in M02030140-55 and components and software therefor, and systems incorporating such equipment and integration software therefor.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment, components, or software specified.

Test, calibration, and alignment equipment for laser gyro equipment, used to characterise mirrors, with the threshold accuracy shown or better for items M02030110-55, M02030120-55, M02030130-55, M02030140-55 and M02030150-55; and components therefor;

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment, components or the software specified.

Test, calibration, and alignment equipment for other inertial equipment, specified in M02030110-55, M02030120-55, M02030130-55, M02030140-55, M02030150-55 and M02030200-55; and components therefor;

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment, components or software specified.

Flight control systems, as follows, designed or modified for use in missile systems:

hydraulic, mechanical, electro-optical, or electro-mechanical flight control systems (including fly-by-wire systems).

Test, calibration and alignment equipment for items specified.

Technology according to the General Technology Note for the development, production or use of the equipment specified.

Attitude control equipment, (flight control system), designed or modified for use in missile systems.

Test, calibration and alignment equipment for items specified.

Technology according to the General Technology Note for the development, production or use of the equipment specified.

Design technology for integration of air vehicle fuselage, propulsion system and lifting control surfaces to optimise aerodynamic performance throughout the flight regime of an unmanned air vehicle.

Design technology for integration of the flight control, guidance, and propulsion data into a flight management system for optimisation of rocket system trajectory.

Avionics equipment as follows, designed or modified for use in missile systems:

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production, or use of the equipment or software specified.

Passive sensors for determining bearings to specific electromagnetic sources (direction finding equipment) or terrain characteristics, designed or modified for use in missile system.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment or the software specified.

Global Positioning System (GPS) or similar satellite receivers and components therefor:

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment or the software specified.

Electronic assemblies and components designed, modified, tested, certified, or screened for military use and operation at temperatures in excess of 125^o C, designed or modified for use in missile systems.

Software designed for the assemblies or components specified.

Technology according to the General Technology Note for the development, production, or use of the assemblies, components or software specified.

Design technology for protection of avionics and electrical subsystems against electromagnetic pulse (EMP) and electromagnetic interference (EMI) hazards from external sources, designed or modified for use in missile systems as follows:

a. design technology for shielding systems;

b. design technology for the configuration of hardened electrical circuits and subsystems; or

c. determination of hardening criteria for the above.

Filament winding machines, for the production of structural composites usable in missile systems, for which the motions for positioning, wrapping and winding fibres are capable of being coordinated and programmed in three or more axes, designed to fabricate composite structures or laminates from fibrous or filamentary materials, and coordinating and programming controls and components and accessories therefor.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of goods specified.

Also see N52000000-10

Tape-laying machines, for the production of structural composites usable in missile systems, for which the motions for positioning and laying tape and sheets are capable of being co-ordinated and programmed in two or more axes, designed for the manufacture of composite airframes and missile structures and components and accessories therefor.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of goods specified.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of goods specified.

Equipment for converting polymeric fibres (e.g. polyacrylonitrile, rayon or polycarbosilane) including special provision to strain the fibre during heating, designed or modified for the production of fibrous or filamentary materials, usable in missile systems; and components and accessories therefor.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of goods specified.

Equipment for the vapour deposition of elements or compounds on heated filament substrates, designed or modified for the production of fibrous or filamentary materials, usable in missile systems; components and accessories therefor.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of goods specified.

Equipment for the wet-spinning of refractory ceramics (such as aluminium oxide), designed or modified for the production of fibrous or filamentary materials, usable in missile systems; and components and accessories therefor.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of goods specified.

Equipment designed or modified for special fibre surface treatment, and equipment designed or modified for production of prepregs and preforms, usable in missile systems; components and accessories therefor;

including:

a. rollers;

b. tension stretchers;

c. coating equipment;

d. cutting equipment; or

e. clicker dies.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of goods specified.

Components and accessories for machines specified in M0204xxxx-54, including moulds, mandrels, dies, fixtures and tooling for the preform pressing, curing, casting, sintering or bonding of composite structures, laminates and manufactures thereof.

Technology according to the General Technology Note for the development, production or use of goods specified.

Composite structures, laminates, and manufactures listed in M0201xxxx-57, designed or modified for missile systems or subsystems, and resin impregnated fibre prepregs using resins with a glass transition temperature (T_g), after cure, exceeding 145^o C as determined by ASTM D4065 or national equivalents, and metal-coated fibre preforms therefor, made either with organic matrix or metal matrix utilising fibrous or filamentary reinforcements with a specific tensile strength greater than 7.62 x 10⁴ m (3 x 10⁶ inches) and a specific modulus greater than 3.18 x 10⁶ m (1.25 x 10⁸ inches).

Technology according to the General Technology Note for the development, production or use of goods specified.

Also see N040x0000-02

Resaturated pyrolized (i.e., carbon-carbon) materials designed for missile systems.

Technology according to the General Technology Note for the development, production or use of goods specified.

Also see N04010000-02

Fine grain recrystallized bulk graphite (with a bulk density of at least 1.72 g/cm³ measured at 15^oC and having a particle size of 100 x 10^-6m (100 microns) or less), pyrolytic, or fibrous reinforced graphite usable for rocket nozzles and reentry vehicle nose tips.

Technology according to the General Technology Note for the development, production or use of goods specified.

Ceramic composite materials (dielectric constant less than 6 at frequencies from 100 Hz to 10,000 MHz) for use in missile radomes, and bulk machinable silicon carbide reinforced unfired ceramic usable for nose tips.

Technology according to the General Technology Note for the development, production or use of goods specified.

Tungsten, molybdenum and alloys of these metals in the form of uniform spherical or atomized particles of 500 micrometer (microns) diameter or less with a purity of 97 percent or higher for fabrication of rocket motor components, including heat shields, nozzle substrates, nozzle throats and thrust vector control surfaces.

Technology according to the General Technology Note for the development, production or use of goods specified.

Technology according to the General Technology Note for the development, production or use of goods specified.

Also see N05000000-02

Nozzles for processes in M02050100-54.

Technology according to the General Technology Note for the development, production or use of goods specified.

Equipment and process controls designed or modified for the densification and pyrolysis of structural composite, rocket nozzles and re-entry nose tips including:

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment or software specified.

Also see N59000000-10

Equipment and process controls designed or modified for the densification and pyrolysis of structural composite, rocket nozzles and re-entry nose tips including:

chemical vapour deposition furnaces designed or modified for the densification of carbon-carbon composites.

Software designed for the equipment specified.

Technology according to the General Technology Note for the development, production or use of the equipment or software specified.

Apparatus and devices designed or modified for the handling, control, activation and launching of missile systems.

Technology according to the General Technology Note for the development, production or use of the goods specified.

Vehicles designed or modified for the transport, handling, control, activation and launching of missile systems.

Technology according to the General Technology Note for the development, production or use of the goods specified.

Gravity meters (gravimeters), gravity gradiometers, and specially designed components therefor, designed or modified for airborne or marine use, and with a static or operational accuracy of 7 x 10^-6 m/sec² (0.7 milligal) or better, and a time to steady-state registration of two minutes or less.

Telemetering and telecontrol equipment usable for missile systems.

Technology according to the General Technology Note for the development, production or use of the goods specified.

Precision tracking systems, for missile systems, and using a code translator or transponder installed on the missile systems and either surface or airborne references or navigation satellite systems to provide real time measurements of in-flight position and velocity.

Technology according to the General Technology Note for the development, production, or use of the equipment specified.

Technology according to the General Technology Note for the development, production, or use of the equipment specified.

Software for missile system with post-flight, recorded data, for the determination of vehicle position throughout its flight path.

Technology according to the General Technology Note for the development, production, or use of the software specified.

a. rated for continuous operation at temperatures from below minus 45^oC to above plus 55^oC; or,

b. designed as ruggedized or radiation hardened.

Analog-to-digital converters, usable in missile systems, with either of the following characteristics:

a. designed to meet military specifications for ruggedized equipment; or

b. designed, modified, tested, certified or screened for military use, and being one of the following type:

Vibration test systems, usable for missile systems or subsystems and using feedback or closed loop techniques and incorporating a digital controller, capable of vibrating a system at 10 g RMS or more over the entire range 20 Hz to 2000 Hz and imparting forces of 25 kN (5,625 lbs), measured 'bare table', or greater.

Specially designed software for equipment specified.

Technology according to the General Technology Note for the development, production or use of equipment or software specified.

Also see N61010000-10

Digital controllers, combined with specially designed vibration test software, with a real-time bandwidth greater than 5 kHz and being designed for use with the systems specified in M02080110-56.

Technology according to the General Technology Note for the development, production or use of equipment or software specified.

Also see N61020000-10

Vibration thrusters (shaker units), with or without associated amplifiers, capable of imparting a force of 25 kN (5,625 lbs), measured "bare table", or greater, which are usable for the systems specified in M02080110-56.

Technology according to the General Technology Note for the development, production or use of equipment specified.

Also see N61030000-10

Test piece support structures and electronic units designed to combine multiple shaker units into a complete shaker system capable of providing an effective total force of 25 kN, measured 'bare table', or greater, which are usable for in systems specified in M02080110-56.

Software designed for use with the equipment specified.

Technology according to the General Technology Note for the development, production or use of equipment or software specified.

Also see N61040000-10

Wind-tunnels usable for missile systems or sub-systems.

Software designed for the equipment specified.

M02080300-56

Test benches/stands, usable for missile systems, capable of handling solid or liquid propellant rockets or rocket motors of more than 10 kN of thrust, or capable of simultaneously measuring the thrust components in all three axes.

Technology according to the General Technology Note for the development, production or use of equipment or software specified.

Software designed for the development, production or use of the equipment specified.

Environmental chambers and anechoic chambers, usable for missile systems or sub-systems, capable of simulating the following flight conditions:

Technology according to the General Technology Note for the development, production or use of equipment or software specified

Accelerators except those specially designed for medical purposes, usable for missile systems or subsystems, and capable of delivering electromagnetic radiation produced by "Bremsstrahlung" from accelerated electrons of 2 MeV or greater, and systems containing those accelerators.

Technology according to the General Technology Note for the development, production or use of equipment or software specified.

Software or software with related specially designed hybrid (combined analogue/digital) computers, for modelling (including in particular the aerodynamic and thermodynamic analysis of the systems), simulation, or design integration of missile systems or subsystems.

Materials and devices for reduced observables (e.g. radar reflectivity, ultraviolet/infrared signatures and acoustic signatures, i.e. stealth technology), for applications usable for missile systems or subsystems including:

a. structural materials and coatings specially designed for reduced radar reflectivity;

b. coatings, including paints, specially designed for reduced or tailored reflectivity or emissivity in the microwave, infrared or ultraviolet spectra.

Radar cross section measurement systems for applications usable for missile systems or subsystems, for use in connection with reduced observables such as radar reflectivity.

Radiation Hardened microcircuits and detectors for protecting missile systems against nuclear effects (e.g. Electromagnetic Pulse (EMP), X-rays, combined blast and thermal effects).

Radomes designed to withstand a combined thermal shock greater the 100 cal/sq cm accompanied by a peak over pressure of greater than 50 kPa for protecting missile systems from nuclear effects.

Uranium containing the mixture of isotopes occurring in nature; uranium depleted in the isotope 235; thorium; any of the foregoing in the form of metal, alloy, chemical compound or concentrate and any other goods containing one or more of the foregoing, other than irradiated nuclear fuel (see N01040000-01).

Technology according to the General Technology Note for the use of goods specified.

Low Enriched Uranium (LEU), or plutonium as follows:

uranium enriched to less than 20% of the isotopes 233, 235, or both; plutonium with an isotopic concentration of Pu-238 exceeding 80%; any of the foregoing in the form of metal, alloy, chemical compound or concentrate and any other goods containing one or more of the foregoing, other than irradiated nuclear fuel (see N01040000-01).

Technology according to the General Technology Note for the use of goods specified.

*Highly Enriched Uranium (HEU) or plutonium, as follows:

uranium enriched to 20% or more in isotopes 233, 235, or both; plutonium containing less than 80% plutonium 238; any of the foregoing in the form of metal, alloy, chemical compound or concentrate and any other goods containing one or more of the foregoing, other than irradiated nuclear fuel (see N01040000-01) or items in N01030B00-01.

*Technology according to the General Technology Note for the use of goods specified.

Highly Enriched Uranium (HEU) or plutonium, as follows:

uranium enriched to 20% or more in isotopes 233, 235, or both; plutonium containing less than 80% plutonium 238; any of the foregoing in the form of metal, alloy, chemical compound or concentrate and any other goods containing one or more of the foregoing, other than irradiated nuclear fuel (see N01040000-01) in sub-gram amounts of the special fissionable material specified in the form of:

a. certified reference material;

b. instrument calibration source; or

c. sensing component in instruments.

Technology according to the General Technology Note for the use of goods specified.

*Irradiated nuclear fuel

*Technology according to the General Technology Note for the use of goods specified.

Zirconium metal and alloys in the form of tubes, or assemblies of tubes, specially designed or prepared for use in a nuclear reactor and in which the relation of hafnium to zirconium is less than 1:500 parts by weight.

Zirconium as follows: metal, alloys containing more than 50% zirconium by weight, and compounds in which the ratio of hafnium content to zirconium content is less than 1 part to 500 parts by weight, and manufactures wholly thereof; except zirconium in the form of foil having a thickness not exceeding 0.10 mm (0.004 in).

Also see M02020415-52

Technology according to the General Technology Note for the use of goods specified.

Carbon or aramid fibrous or filamentary materials having a specific modulus of 12.7 x 10⁶ m or greater or a specific tensile strength of 23.5 x 10⁴ m or greater.

Technology according to the General Technology Note for the use of goods specified.

Glass fibrous or filamentary materials having a specific modulus of 3.18 x 10⁶ m or greater and a specific tensile strength of 7.62 x 10⁴ m or greater.

Technology according to the General Technology Note for the use of goods specified.

*Composite structures in the form of tubes with an inside diameter of between 75 mm (3 in) and 400 mm (16 in) made with fibrous or filamentary materials described in N04010000-02 and N04020000-02.

*Technology according to the General Technology Note for the use of goods specified.

Technology according to the General Technology Note for the use of goods specified.

Also see M02040860-54

Technology according to the General Technology Note for the use of goods specified.

Chlorine trifluoride (CAS No. 7790-91-2)

Technology according to the General Technology Note for the use of goods specified.

Also see M02020419-52

Technology according to the General Technology Note for the use of goods specified.

Beryllium as follows: metal, alloys containing more than 50% of beryllium by weight, compounds containing beryllium and manufactures thereof;

a. metal windows for X-ray machines;

b. oxide shapes in fabricated or semi-fabricated forms specially designed for electronic component parts or as substrates for electronic circuits;

c. naturally occurring compounds containing beryllium.

Technology according to the General Technology Note for the use of goods specified.

Also see M02020415-52

Calcium metal containing both equal to or less than 0.2% by weight of impurities other than magnesium and less than 20 ppm of boron.

Magnesium metal containing both equal to or less than 0.2% by weight of metallic impurities other than calcium and less than 20 ppm (parts per million) of boron.

Technology according to the General Technology Note for the use of goods specified.

Also see M02020415-52

Tantalum sheets with a thickness of 2.5 mm or greater from which a circle of 200 mm diameter can be obtained.

Technology according to the General Technology Note for the use of goods specified.

Tungsten, as follows:

parts made of tungsten, tungsten carbide, or tungsten alloys (greater than 90% tungsten) having a mass greater than 20 Kg and a hollow cylinder symmetry (including cylinder segments) with an inside diameter greater than 100 mm (4 in) but less then 300 mm (12 in).

Technology according to the General Technology Note for the use of goods specified.

Hafnium as follows: metal, alloys, and compounds of hafnium containing more than 60% hafnium by weight and manufactures thereof.

Technology according to the General Technology Note for the use of goods specified.

Boron and boron compounds, mixtures and loaded materials in which the boron-10 isotope is more than 20% by weight of the total boron content.

Technology according to the General Technology Note for the use of goods specified.

High purity (99.99% or greater) bismuth with very low silver content (less than 10 parts per million).

Technology according to the General Technology Note for the use of goods specified.

*Isotopically enriched in lithium-6; as follows:

metal, hydrides or alloys containing lithium enriched in the lithium-6 isotope (⁶Li) to a concentration higher than the one existing in nature (7.5% on an atom percentage basis).

*Technology according to the General Technology Note for the use of goods specified.

*Isotopically enriched in lithium-6; as follows:

any other materials containing lithium enriched in the lithium-6 isotope, (including compounds, mixtures and concentrates).

*Technology according to the General Technology Note for the use of goods specified.

Isotopically enriched in lithium-6; as follows:

*Helium in any form isotopically enriched in the helium-3 isotope, whether or not mixed with other materials or contained in any equipment or device.

*Technology according to the General Technology Note for the use of goods specified.

Helium in any form isotopically enriched in the helium-3 isotope, whether or not mixed with other materials or contained in any equipment or device that contain less than 1 g of helium-3.

Technology according to the General Technology Note for the use of goods specified.

*Tritium, including compounds and mixtures, containing tritium in which the ratio of tritium to hydrogen by atoms exceeds 1 part in 1000.

*Technology according to the General Technology Note for the use of goods specified.

Tritium in luminescent devices (e.g. safety devices installed in aircraft, watches, runway lights) containing more than 40 Ci of tritium in any chemical or physical form.

Technology according to the General Technology Note for the use of goods specified.

Tritium labeled organic compounds.

Technology according to the General Technology Note for the use of goods specified.

Deuterium, heavy water (deuterium oxide) and any other deuterium compound in which the ratio of deuterium to hydrogen atoms exceeds 1:5000 for use in a nuclear reactor.

Technology according to the General Technology Note for the use of goods specified.

Graphite having a purity level better than 5 parts per million boron equivalent and with a density greater than 1.50 g/cm³.

Technology according to the General Technology Note for the use of goods specified.

*Gas centrifuges and assemblies and components specially designed or prepared for use in gas centrifuges

*Rotating components (N2201xx00-03)

*Rotating components: Complete rotor assemblies

Thin-walled cylinders (or a number of interconnected thin-walled cylinders) manufactured from one or more of the high strength to density ratio materials described in the explanatory note to this section.

If interconnected, the cylinders are joined together by flexible bellows or rings as described in N22010C00-03. The rotor is fitted with an internal baffle(s) and end caps, as described in N22010D00-03 and N220100E00-03 if in final form. However, the complete assembly may be delivered only partly assembled.

*Rotating components: Rotor tubes

Specially designed or prepared thin-walled cylinders with thickness of 12 mm (0.5 in) or less, a diameter of between 75 mm (3 in) and 400 mm (16 in), and manufactured from one or more of the high strength to density ratio materials described in the explanatory note to this section.

*Rotating components: Rings or bellows

Components specially designed or prepared to give localized support to the rotor tube or to join together a number of rotor tubes. The bellows is a short cylinder of wall thickness 3 mm (0.12 in) or less, a diameter of between 75 mm (3 in) and 400 mm (16 in), having a convolute and manufactured from one or more of the high strength to density ratio materials described in the explanatory note to this section.

*Rotating components: Baffles

Disc-shaped components of between 75 mm (3 in) and 400 mm (16 in) in diameter specially designed or prepared to be mounted inside the centrifuge rotor tube, in order to isolate the take-off chamber from the main separation chamber and, in some cases, to assist the UF₆ gas circulation within the main separation chamber of the rotor tube, and manufactured from one or more of the high strength to density ratio materials described in the explanatory note to this section.

*Rotating components: Top caps/Bottom caps

Disc-shaped components of between 75 mm (3 in) and 400 mm (16 in) in diameter specially designed or prepared to fit to the ends of the rotor tube, and so contain the UF₆ within the rotor tube, and in some cases to support, retain, or contain as an integrated part an element of the upper bearing (top cap) or to carry the rotating elements of the motor and lower bearing (bottom cap), and manufactured from one of the high strength to density ratio materials described in the explanatory notes to this section.

*Static components: Magnetic suspension bearings

Specially designed or prepared bearing assemblies consisting of an annular magnet suspended within a housing containing a damping medium. The housing is manufactured from a UF₆-resistant material (see explanatory note to N23040000-03). The magnet couples with a pole piece or a second magnet fitted to the top cap described in N22010E00-03. The magnet may be ring-shaped with a relation between the outer and inner diameter smaller or equal to 1.6:1. The magnet may be in a form having an initial permeability of 0.15 H/m (120,000 in cgs units) or more, or a remanence of 98.5% or more, or an energy product of greater than 80 kJ/m³ (10⁷ gauss-oersteds). In addition to the usual material properties, it is a prerequisite that the deviation of the magnetic axes from the geometrical axes is limited to very small tolerances (lower than 0.1 mm or 0.004 in) or that homogeneity of the material of the magnet is specially called for.

*Static components: Bearings/Dampers

Specially designed or prepared bearings comprising a pivot/cup assembly mounted on a damper. The pivot is normally a hardened steel shaft with a hemisphere at one end with a means of attachment to the bottom cap described in N22010E00-03 at the other. The shaft may, however, have a hydrodynamic bearing attached. The cup is pellet-shaped with a hemispherical indentation in one surface. These components are often supplied separately to the damper.

*Static components: Molecular pumps

Specially designed or prepared cylinders having internally machined or extruded helical grooves and internally machined bores. Typical dimensions are as follows: 75 mm (3 in) to 400 mm (16 in) internal diameter, 10 mm (0.4 in) or more wall thickness, with the length equal to or greater than the diameter. The grooves are typically rectangular in cross-section and 2 mm (0.08 in) or more in depth.

*Static components: Motor stators

Specially designed or prepared ring-shaped stators for high-speed multiphase AC hysteresis (or reluctance) motors for synchronous operation within a vacuum in the frequency range of 600-2000 Hz and a power range of 50-1000 VA. The stators consist of multiphase windings on a laminated low loss iron core comprised of thin layers typically 2.0 mm (0.08 in) thick or less.

*Static components: Centrifuge housing/recipients

Components specially designed or prepared to contain the rotor tube assembly of a gas centrifuge. The housing consists of a rigid cylinder of wall thickness up to 30 mm (1.2 in) with precision machined ends to locate the bearings and with one or more flanges for mounting. The machined ends are parallel to each other and perpendicular to the cylinder’s longitudinal axis to within 0.05 degrees or less. The housing may also be a honeycomb type structure to accommodate several rotor tubes. The housings are made of, or protected by, materials resistant to corrosion by UF₆.

*Static components: Scoops

Specially designed or prepared tubes of up to 12 mm (0.5 in) internal diameter for the extraction of UF₆ gas from within the rotor tube by a Pitot tube action (that is, with an aperture facing into the circumferential gas flow within the rotor tube, for example by bending the end of a radially disposed tube) and capable of being fixed to the central gas extraction system. The tubes are made of, or protected by, materials resistant to corrosion by UF₆.

*Specially designed or prepared auxiliary systems, equipment and, components for gas centrifuge enrichment plants

*Feed systems/’product’ and ‘tails’ withdrawal systems

Specially designed or prepared process systems including:

a. Feed autoclaves (or stations) used for passing UF₆ to the centrifuge cascades at up to 100 kPa (15 psi) and at a rate of 1 kg/h or more;

c. ‘Product’ and ‘tails’ stations used for trapping UF₆ into containers

*Machine header piping systems

Specially designed or prepared piping systems and header systems for handling UF₆ within the centrifuge cascades. The piping network is normally of the ‘triple’ header system with each centrifuge connected to each of the headers. There is, thus, a substantial amount of repetition in its form. It is wholly made of UF₆-resistant materials (see explanatory note in N23040000-03) and is fabricated to very high vacuum and cleanliness standards.

*UF₆ mass spectrometers/ion sources

Specially designed or prepared magnetic or quadrupole mass spectrometers, capable of taking 'on-line' samples of feed, ‘product’ or ‘tails’, from UF₆ gas streams and having all of the following characteristics:

a. Unit resolution for atomic mass unit greater than 320;

b. Ion sources constructed of or lined with nichrome or monel or nickel plated;

c. Electron bombardment ionization sources; and

d. A collector system suitable for isotopic analysis.

*Frequency changers

Frequency changers (also known as converters or invertors) specially designed or prepared to supply motor stators as defined in N22020D00-03, or parts, components, and sub-assemblies of such frequency changers having all of the following characteristics:

a. A multiphase output of 600 to 2000 Hz;

b. High stability (with frequency control better than 0.1%); and

c. Total harmonic distortion less than 2%.

Materials resistant to corrosion by UF₆ include stainless steel, aluminum, aluminum alloys, nickel, or alloys containing 60% or more nickel.

*Specially designed or prepared assemblies and components for use in gaseous diffusion enrichment

*Gaseous diffusion barriers

a. Specially designed or prepared thin, porous filters, with a pore size of 100 - l000  Å (ångstroms), a thickness of 5 mm (0.2 in) or less, and for tubular forms, a diameter of 25 mm (1 in) or less, made of metallic, polymer or ceramic materials resistant to corrosion by UF₆; and

b. Specially prepared compounds or powders for the manufacture of such filters. Such compounds and powders include nickel or alloys containing 60% or more nickel, aluminum oxide, or UF₆-resistant fully fluorinated hydrocarbon polymers having a purity of 99.9% or more, a particle size less than 10 microns, and a high degree of particle size uniformity, which are specially prepared for the manufacture of gaseous diffusion barriers.

*Diffuser housings

Specially designed or prepared hermetically sealed cylindrical vessels greater than 300 mm (12 in) in diameter and greater than 900 mm (35 in) in length, or rectangular vessels of comparable dimensions, which have an inlet connection and two outlet connections all of which are greater than 50 mm (2 in) in diameter, for containing the gaseous diffusion barrier, made of or lined with UF₆-resistant materials and designed for horizontal or vertical installation.

*Compressors and gas blowers

Specially designed or prepared axial, centrifugal, or positive displacement compressors, or gas blowers with a suction volume capacity of 1 m³/min. or more of UF₆, and with a discharge pressure of up to several hundred kPa (100 psi), designed for long-term operation in the UF₆ environment with or without an electrical motor of appropriate power, as well as separate assemblies of such compressors and gas blowers. These compressors and gas blowers have a pressure ratio between 2:1 and 6:1 and are made of, or lined with, materials resistant to UF₆.

*Rotary shaft seals

Specially designed or prepared vacuum seals, with seal feed and seal exhaust connections, for sealing the shaft connecting the compressor or the gas blower rotor with the driver motor, so as to ensure a reliable seal against in-leaking of air into the inner chamber of the compressor or gas blower which is filled with UF₆. Such seals are normally designed for a buffer gas in-leakage rate of less than 1000 cm³/min. (60 in³/min.).

*Heat exchangers for cooling UF₆

Specially designed or prepared heat exchangers made of or lined with UF₆-resistant materials (except stainless steel) or with copper or any combination of those metals, and intended for a leakage pressure change rate of less than 10 Pa (0.0015 psi) per hour under a pressure difference of 100 kPa (15 psi).

*Specially designed or prepared auxiliary systems, equipment and components for use in gaseous diffusion enrichment

*Feed systems/’product’ and ‘tails’ withdrawal systems

Specially designed or prepared process systems, capable of operating at pressures of 300 kPa (45 psi) or less, including:

a. Feed autoclaves, or systems used for passing UF₆ to the gaseous diffusion cascade;

b. Desublimers (or cold traps)used to remove UF₆ from diffusion cascades;

c. Liquefaction stations where UF₆ gas from the cascade is compressed and cooled to form liquid UF₆; and,

d. 'Product' or 'tails' stations used for transferring UF₆ into containers.

*Header piping systems

Specially designed or prepared piping systems and header systems, for handling UF₆ within the gaseous diffusion cascade. This piping network is normally of the ‘double' header system with each stage or group of stages connected to each of the headers.

*Vacuum systems

a. Specially designed or prepared large vacuum manifolds, vacuum headers and vacuum pumps having a suction capacity of 5 m³/min. (175 ft³ / min.) or more; and,

b. Vacuum pumps specially designed for service in UF₆-bearing atmospheres made of, or lined with, aluminum, nickel, or alloys bearing more than 60% nickel. These pumps may be either rotary or positive, may have displacement and fluorocarbon seals, and may have special working fluids present.

*Special shut-off and control valves

*UF₆ mass spectrometers/ion sources

Specially designed or prepared magnetic or quadrupole mass spectrometers capable of taking "on-line" samples of feed, ‘product’ or ‘tails’, from UF₆ gas streams and having all of the following characteristics:

a. Unit resolution for atomic mass unit greater than 320;

b. Ion sources constructed of or lined with nichrome or monel or nickel plated;

c. Electron bombardment ionization sources; and

d. Collector system suitable for isotopic analysis.

The items listed in N25xxxxxx-03 either come into direct contact with the UF₆ process gas or directly control the flow within the cascade. All surfaces which come into contact with the process gas are wholly made of, or lined with, UF₆-resistant materials. For the purposes of the sections relating to gaseous diffusion items, the materials resistant to corrosion by UF₆ include stainless steel, aluminum, aluminum alloys, aluminum oxide, nickel or alloys containing 60% or more nickel and UF₆-resistant fully fluorinated hydrocarbon polymers.

*Specially designed or prepared systems, equipment and components for use in aerodynamic enrichment plants.

*Separation nozzles

Specially designed or prepared separation nozzles and assemblies thereof. The separation nozzles consist of slit-shaped, curved channels having a radius of curvature less than 1 mm (typically 0.1 to 0.05 mm), resistant to corrosion by UF₆ and having a knife-edge within the nozzle that separates the gas flowing through the nozzle into two fractions.

*Vortex tubes

Specially designed or prepared vortex tubes and assemblies thereof. The vortex tubes are cylindrical or tapered, made of, or protected by, materials resistant to corrosion by UF₆, having a diameter of between 0.5 cm and 4 cm, a length to diameter ratio of 20:1 or less and with one or more tangential inlets. The tubes may be equipped with nozzle-type appendages at either or both ends.

*Compressors and gas blowers

Specially designed or prepared axial, centrifugal or positive displacement compressors or gas blowers made of, or protected by, materials resistant to corrosion by UF₆ and with a suction volume capacity of 2 m³/min. or more of UF₆/carrier gas (hydrogen or helium) mixture.

*Rotary shaft seals

*Heat exchangers for gas cooling

Specially designed or prepared heat exchangers made of, or protected by, materials resistant to corrosion by UF₆.

*Separation element housings

Specially designed or prepared separation element housings, made of, or protected by, materials resistant to corrosion by UF₆, for containing vortex tubes or separation nozzles.

*Feed systems/’product’ and ‘tails’ withdrawal systems

Specially designed or prepared process systems or equipment for enrichment plants made of, or protected by, materials resistant to corrosion by UF₆, including: