- Latest available (Revised)
- Original (As made)
This is the original version (as it was originally made). This item of legislation is currently only available in its original format.
Aero gas turbine engines incorporating any of the technologies specified in head a. of entry 9E003, as follows(1):
a.Not certified for the specific civil aircraft for which they are intended;
b.Not certified for civil use by the aviation authorities in a relevant country;
Note: For the purposes of head b. of this entry, `relevant country' means an authority in Australia, Belgium, Canada, Denmark, Eire, France, Germany, Greece, Italy, Japan, Luxembourg, Netherlands, Norway, Portugal, Spain, Turkey, United Kingdom or United States of America.
c.Designed to cruise at speeds exceeding Mach 1·2 for more than thirty minutes.
Marine gas turbine engines with an ISO standard continuous power rating of 13,795kW or more and a specific fuel consumption of less than 0·243kg/kWh, and specially designed assemblies and components therefor.
Specially designed assemblies and components, incorporating any of the technologies specified in head a. of entry 9E003, for the following gas turbine engine propulsion systems:
a.Specified in entry 9A001; or
b.Whose design or production origins are either any country listed in Schedule 2 or are unknown to the manufacturer.
Note: This entry does not specify multiple domed combustors operating at average burner outlet temperatures equal to or less than 1,813K (1,540°C).
Space launch vehicles or spacecraft (not including their payloads)(2).
(For products contained in spacecraft payloads, see the appropriate categories).
Liquid rocket propulsion systems containing any of the systems or components specified in entry 9A006(3).
Systems or components, as follows(4), specially designed for liquid rocket propulsion systems:
a.Cryogenic refrigerators, flightweight dewars, cryogenic heat pipes or cryogenic systems specially designed for use in space vehicles and capable of restricting cryogenic fluid losses to less than 30% per year;
b.Cryogenic containers or closed—cycle refrigeration systems capable of providing temperatures of 100K (−173°C) or less for aircraft capable of sustained flight at speeds exceeding Mach 3, launch vehicles or spacecraft;
c.Slush hydrogen storage or transfer systems;
d.High pressure (exceeding 17·5MPa) turbo pumps, pump components or their associated gas generator or expander cycle turbine drive systems;
e.High—pressure (exceeding 10·6MPa) thrust chambers and nozzles therefor;
f.Propellant storage systems using the principle of capillary containment or positive expulsion (i.e.,with flexible bladders).
Solid rocket propulsion systems with any of the following(5):
Total impulse capacity exceeding 1·1MNs; or
Specific impulse of 2·4kNs/kg or more when the nozzle flow is expanded to ambient sea level conditions for an adjusted chamber pressure of 7MPa;
Stage mass fractions exceeding 88%; and
Propellant solid loadings exceeding 86%;
c.Any of the components specified in entry 9A008; or
d.Insulation and propellant bonding systems using direct—bonded motor designs to provide a strong mechanical bond or a barrier to chemical migration between the solid propellant and case insulation material.
Technical Note: For the purposes of head d. of this entry, a strong mechanical bond means bond strength equal to or more than propellant strength.
Components, as follows(6), specially designed for solid rocket propulsion systems:
a.Insulation and propellant bonding systems using liners to provide a strong mechanical bond or a barrier to chemical migration between the solid propellant and case insulation material;
Technical Note: For the purposes of head a. of this entry, a strong mechanical bond means bond strength equal to or more than propellant strength.
b.Filament—wound composite motor cases exceeding 0·61m in diameter or having structural efficiency ratios (PV/W) exceeding 25km;
Technical Note: The structural efficiency ratio (PV/W) is the burst pressure (P) multiplied by the vessel volume (V) divided by the total pressure vessel weight (W).
c.Nozzles with thrust levels exceeding 45kN or nozzle throat erosion rates of less than 0·075mm/s;
d.Movable nozzle or secondary fluid injection thrust vector control systems capable of:
Omni—axial movement exceeding ±5°;
Angular vector rotations of 20°/s or more; or
Angular vector accelerations of 40°/s2 or more.
Hybrid rocket propulsion systems(7) with:
a.Total impulse capacity exceeding 1·1MNs; or
b.Thrust levels exceeding 220kN in vacuum exit conditions.
Specially designed components or structures, for launch vehicles or launch vehicle propulsion systems, manufactured using metal matrix composite, organic composite, ceramic matrix or intermetallic reinforced materials specified in entries 1C007 or 1C010(8).
Ramjet, scramjet or combined cycle engines and specially designed components therefor(9).
Lightweight turbojet and turbofan engines (including turbocompound engines) that are small and fuel efficient and usable in missiles, other than those specified in entry 9A001.
Sounding rockets, capable of a range of at least 300km.
Liquid propellant rocket engines usable in missiles, other than those specified in entry 9A005, having a total impulse capacity of 1·1MNs or greater(10).
Systems or components, other than those specified in entry 9A006, usable in missiles, as follows, specially designed for liquid rocket propulsion systems:
a.Rocket nozzles;
b.Thrust vector control sub—systems;
Technical Note: Examples of methods of achieving thrust vector control specified in head b. of this entry are:
Flexible nozzle;
Fluid or secondary gas injection;
Movable engine or nozzle;
Deflection of exhaust gas stream (jet vanes or probes); or
Thrust tabs.
c.Liquid and slurry propellant (including oxidiser) control systems, and specially designed components therefor, designed or modified to operate in vibration environments of more than 10grms between 20Hz and 2,000Hz.
Note: The only servo valves and pumps specified in head c. of this entry are as follows:
Servo valves designed for flow rates of 24 litres per minute or greater, at an absolute pressure of 7MPa or greater, that have an actuator response time of less than 100ms;
Pumps, for liquid propellants, with shaft speeds equal to or greater than 8,000rpm or with discharge pressures equal to or greater than 7MPa.
Components, other than those specified in entry 9A008, usable in missiles, as follows, specially designed for solid rocket propulsion systems:
a.Rocket motor cases, interior lining and insulation therefor;
Note: In this entry interior lining means suited for the bond interface between the solid propellant and the case or insulating liner. Usually a liquid polymer based dispersion of refractory or insulating materials, e.g., carbon filled hydroxy—terminated polybutadiene (HTPB) or other polymer with added curing agents sprayed or screeded over a case interior.
b.Rocket nozzles;
c.Thrust vector control sub—systems.
Technical Note: Examples of methods of achieving thrust vector control specified in head c. of this entry are:
Flexible Nozzle;
Fluid or secondary gas injection;
Movable engine or nozzle;
Deflection of exhaust gas stream (jet vanes or probes); or
Thrust tabs.
Hybrid rocket motors, usable in missiles, other than those specified in entry 9A009, and specially designed components therefor(11).
Composite structures, laminates and manufactures thereof, other than those specified in entry 9A010, including resin impregnated fibre prepregs and metal coated fibre preforms therefor, specially designed for use in the systems specified in entries 9A004 or 9A104 or the subsystems specified in entries 9A005, 9A007, 9A105, 9A106, 9A108 and 9A116, made either with organic matrix or metal matrix utilising fibre or filamentary reinforcements having a specific tensile strength greater than 7·62×104 m and a specific modulus greater than 3·18×106 m(12).
Pulse jet engines, usable in missiles, and specially designed components therefor(13).
Launch support equipment, designed or modified for systems specified in entries 9A004 or 9A104, as follows:
a.Apparatus and devices for handling, control, activation or launching;
b.Vehicles for transport, handling, control, activation or launching.
Reentry vehicles, usable in missiles, and equipment designed or modified therefor, as follows:
a.Heat shields and components therefor fabricated of ceramic or ablative materials;
b.Heat sinks and components therefor fabricated of light—weight, high heat capacity materials;
c.Electronic equipment specially designed for reentry vehicles.
Staging mechanisms, separation mechanisms, and interstages, usable in missiles.
Devices to regulate combustion usable in engines, which are usable in missiles, specified in entries 9A011 or 9A111.
Individual rocket stages, usable in missiles, other than those specified in entries 9A005, 9A007, 9A009, 9A105 or 9A109.
The export of goods specified in this entry is only prohibited to any destination in Libya, Iran, Iraq, Syria or South Africa.
Aircraft having a maximum all up weight of 680 kg or more.
Aircraft or steerable parachutes having a maximum all up weight of not more than 680kg.
The export of goods specified in this entry is only prohibited to any destination in Libya, Iran, Iraq, Syria or South Africa.
Equipment or components specially designed for civil aircraft, other than those specified in Group 1 of Part III of this Schedule or elsewhere in this Group;
except:
Equipment and components specially designed for civil aircraft, where the aircraft type can be shown to have first flown before 1 January 1950.
Specially designed equipment, tooling or fixtures, as follows, for manufacturing or measuring gas turbine blades, vanes or tip shroud castings:
a.Automated equipment using non—mechanical methods for measuring airfoil wall thickness;
b.Tooling, fixtures or measuring equipment for the laser, water jet or ECM/EDM hole drilling processes specified in head c. of entry 9E003;
c.Directional solidification or single crystal casting equipment;
d.Ceramic cores or shells;
e.Ceramic core manufacturing equipment or tools;
f.Ceramic core leaching equipment;
g.Ceramic shell wax pattern preparation equipment;
h.Ceramic shell burn out or firing equipment.
On—line (real time) control systems, instrumentation (including sensors) or automated data acquisition and processing equipment, specially designed for the development of gas turbine engines, assemblies or components incorporating technologies specified in head a. of entry 9E003.
Equipment specially designed for the production or test of gas turbine brush seals designed to operate at tip speeds exceeding 335m/s, and specially designed parts or accessories therefor.
Tools, dies or fixtures for the solid state joining of gas turbine superalloy or titanium components.
On—line (real time) control systems, instrumentation (including sensors) or automated data acquisition and processing equipment, specially designed for use with the following wind tunnels or devices:
a.Wind tunnels designed for speeds of Mach 1·2 or more;except:
those specially designed for educational purposes and having a test section size (measured laterally) of less than 250mm;
Technical Note: Test section size: the diameter of the circle, or the side of a square, or the longest side of a rectangle, at the largest test section location.
b.Devices for simulating flow—environments at speeds exceeding Mach 5, including hot—shot tunnels, plasma arc tunnels, shock tubes, shock tunnels, gas tunnels and light gas guns;
c.Wind tunnels or devices, other than two—dimensional sections, capable of simulating Reynolds number flows exceeding 25 × 106.
Specially designed acoustic vibration test equipment capable of producing sound pressure levels of 160dB or more (referenced to 20 micropascals) with a rated output of 4kW or more at a test cell temperature exceeding 1,273.K (1,000°C), and specially designed transducers, strain gauges, accelerometers, thermocouples or quartz heaters therefor.
Equipment specially designed for inspecting the integrity of rocket motors using non—destructive test (NDT) techniques other than planar X—ray or basic physical or chemical analysis.
N.B.:For Radiographic equipment, see sub—head e.5. of entry 3A001.
Transducers specially designed for the direct measurement of the wall skin friction of the test flow with a stagnation temperature exceeding 833K (560°C).
Tooling specially designed for producing turbine engine powder metallurgy rotor components capable of operating at stress levels of 60% of ultimate tensile strength (UTS) or more and metal temperatures of 873K (600°C) or more.
Wind tunnels for speeds of Mach 0·9 or more, usable for missiles and their subsystems.
Environmental chambers and anechoic chambers, as follows:
a.Environmental chambers capable of simulating the following flight conditions:
Vibration environments of 10g RMS or greater between 20Hz and 2,000Hz and imparting forces of 5kN or greater; and
Altitudes of 15,000m or greater; or
Temperature of at least 223K (−50°C) to 398K (+125°C);
b.Anechoic chambers capable of simulating the following flight conditions:
Acoustic environments at an overall sound pressure level of 140dB or greater (referenced to 20microPa) or with a rated power output of 4kW or greater; and
Altitudes of 15,000m or greater; or
Temperature of at least 223K (−50°C) to 398K (+125°C).
Specially designed production equipment for the systems, sub—systems and components specified in entries 9A005 to 9A009, 9A011, 9A101, 9A105, 9A106, 9A108, 9A109, 9A111, 9A116 to 9A119.
Specially designed production facilities for the systems, sub—systems, and components specified in entries 9A004 to 9A009, 9A011, 9A101, 9A104 to 9A106, 9A108, 9A109, 9A111, 9A116 to 9A119.
Test benches and test stands for solid or liquid propellant rockets or rocket motors, having either of the following characteristics:
a.The capacity to handle more than 90kN of thrust; or
b.Capable of simultaneously measuring the three axial thrust components.
None.
Software required for the development of goods or technology specified in sub—categories 9A, 9B or entry 9E003.
Software required for the production of goods specified in sub—categories 9A or 9B.
Software required for the use of full authority digital electronic engine controls (FADEC) for propulsion systems specified in sub—category 9A or equipment specified in sub—category 9B, as follows:
Software in digital electronic controls for propulsion systems, aerospace test facilities or air breathing aero—engine test facilities;
Fault—tolerant software used in FADEC systems for propulsion systems and associated test facilities.
9D004 Other software, as follows:
a.Software specially designed for vibration test equipment, other than that specified in entry 2D101, using real time digital controls with individual exciters (thrusters) with a maximum thrust exceeding 100kN;
b.2D or 3D viscous software validated with wind tunnel or flight test data required for detailed engine flow modelling;
c.Software required for the development or production of real time full authority electronic test facilities for engines or components specified in sub—category 9A;
d.Software for testing aero gas turbine engines, assemblies or components, specially designed to collect, reduce and analyse data in real time, and capable of feedback control, including the dynamic adjustment of test articles or test conditions, as the test is in progress;
e.Software specially designed to control directional solidification or single crystal casting;
f.Software in source code, object code or machine code required for the use of active compensating systems for rotor blade tip clearance control.
Note: Head f. of this entry does not specify software embedded in non—specified equipment or required for maintenance activities associated with the calibration or repair or updates to the active compensating clearance control system.
Software specially designed for the use of goods specified in entries 9B105, 9B106, 9B116 or 9B117.
Software specially designed for modelling, simulation or design integration of missiles and their sub—systems.
Note: Software specified in this entry remains controlled when combined with specially designed hardware specified in entry 4A102.
Technology required for the development of goods specified in head c. of entry 9A001, or entries 9A004 to 9A011, or sub—Categories 9B or 9D.
Technology required for the production of goods specified in head c. of entry 9A001, or entries 9A004 to 9A011 or sub—Category 9B.
Notes:
1. Development or production technology specified in sub—Category 9E for gas turbine engines remains specified when used as use technology for repair, rebuild and overhaul.
2. This entry does not include technical data, drawings or documentation for maintenance activities directly associated with calibration, removal or replacement of damaged or unserviceable line replaceable units, including replacement of whole engines or engine modules.
(For technology for the repair of specified structures, laminates or materials, see head f. of entry 1E002.)
The export of goods specified in this entry is only prohibited to any destination in any country listed in Schedule 2.
Other technology, as follows:
Technology required for the development or production of the following gas turbine engine components or systems:
Directionally solidified gas turbine blades, vanes or tip shrouds rated to operate at gas path temperatures exceeding 1,593 K (1,320°C);
Single crystal blades, vanes or tip shrouds;
Multiple domed combustors operating at average burner outlet temperatures exceeding 1,643 K (1,370°C), or combustors incorporating thermally decoupled combustion liners, non—metallic liners or non—metallic shells;
Components manufactured from organic composite materials designed to operate above 588 K (315°C), or from metal matrix composite, ceramic matrix, intermetallic or intermetallic reinforced materials specified in entries 1A002 or 1C007;
Uncooled turbine blades, vanes, tip—shrouds or other components designed to operate at gas path temperatures of 1,323 K (1,050°C) or more;
Cooled turbine blades, vanes or tip—shrouds, other than those described insub—heads a.1. and a.2. of this entry, exposed to gas path temperatures of 1,643 K (1,370°C) or more;
Airfoil—to—disk blade combinations using solid state joining;
Gas turbine engine components using diffusion bonding technology specified in head b. of entry 2E003;
Damage tolerant gas turbine engine rotating components using powder metallurgy materials specified in head b. of entry 1C002;
FADEC for gas turbine and combined cycle engines and their related diagnostic components, sensors and specially designed components;
Adjustable flow path geometry and associated control systems for:
Gas generator turbines;
Fan or power turbines;
Propelling nozzles;
Notes:
Adjustable flow path geometry and associated control systems do not include inlet guide vanes, variable pitch fans, variable stators or bleed valves for compressors.
Sub—head a.11. of this entry does not specify development or production technology for adjustable flow path geometry for reverse thrust.
Rotor blade tip clearance control systems employing active compensating casing technology limited to a design and development data base;
Gas bearings for gas turbine engine rotor assemblies;
Wide chord hollow fan blades without part—span support;
Technology required for the development or production of:
Wind tunnel aero—models equipped with non—intrusive sensors capable of transmitting data from the sensors to the data acquisition system;
Composite propeller blades or propfans capable of absorbing more than2,000 kW at flight speeds exceeding Mach 0·55;
Technology required for the development or production of gas turbine engine components using laser, water jet or ECM/EDM hole drilling processes to produce holes with:
Depths more than four times their diameter;
Diameters less than 0·76 mm; and
Incidence angles equal to or less than 25°; or
Depths more than five times their diameter;
Diameters less than 0.4 mm; and
Incidence angles of more than 25°;
Technical Note: For the purposes of head c. of this entry, incidence angle is measured from a plane tangential to the airfoil surface at the point where the hole axis enters the airfoil surface.
d.Technology required for the development or production of helicopter power transfer systems or tilt rotor or tilt wing aircraft power transfer systems:
Capable of loss—of—lubrication operation for 30 minutes or more; or
Having an input power—to—weight ratio equal to or more than 8·87 kW/kg;
Technology for the development or production of reciprocating diesel engine ground vehicle propulsion systems having all of the following:
A box volume of 1·2 m3 or less;
An overall power output of more than 750 kW based on 80/1269/EEC(14) or ISO 2534; and
A power density of more than 700 kW/m3 of box volume;
Technical Note: Box volume is the product of three perpendicular dimensions measured in the following way:
Length:The length of the crankshaft from front flange to flywheel face;
Width:The widest of the following:
The outside dimension from valve cover to valve cover;
The dimensions of the outside edges of the cylinder heads; or
The diameter of the flywheel housing;
Height:The largest of the following:
The dimension of the crankshaft centre—line to the top plane of the valve cover (or cylinder head) plus twice the stroke; or
The diameter of the flywheel housing.
Technology required for the production of specially designed components, as follows, for high output diesel engines:
Technology required for the production of engine systems having all of the following components employing ceramics materials specified in entry 1C007:
Cylinder liners;
Pistons;
Cylinder heads; and
One or more other components (including exhaust ports, turbochargers, valve guides, valve assemblies or insulated fuel injectors);
Technology required for the production of turbocharger systems with single—stage compressors having all of the following:
Operating at pressure ratios of 4:1 or higher;
A mass flow in the range from 30 to 130 kg per minute; and
Variable flow area capability within the compressor or turbine sections;
Technology required for the production of fuel injection systems with a specially designed multifuel (e.g., diesel or jet fuel) capability covering a viscosity range from diesel fuel (2·5 cSt at 310·8 K (37·8°C)) down to gasoline fuel (0·5 cSt at 310·8 K (37·8°C)), having both of the following:
Injection amount in excess of 230 mm3 per injection per cylinder; and
Specially designed electronic control features for switching governor characteristics automatically depending on fuel property to provide the same torque characteristics by using the appropriate sensors;
Technology required for the development or production of high output diesel engines for solid, gas phase or liquid film (or combinations thereof) cylinder wall lubrication, permitting operation to temperatures exceeding 723 K (450°C), measured on the cylinder wall at the top limit of travel of the top ring of the piston.
Technical Note: High output diesel engines are diesel engines with a specified brake mean effective pressure of 1·8 MPa or more at a speed of 2,300 r.p.m., provided the rated speed is 2,300 r.p.m. or more.
Technology required for the development or production of goods specified in entries 9A101, 9A104 to 9A106, 9A108 to 9A111 or 9A115 to 9A119.
Technology required for the use of goods specified in entries 9A004 to 9A011, 9A101, 9A104 to 9A106, 9A108 to 9A111, 9A115 to 9A119, 9B105, 9B106, 9B115, 9B116, 9B117, 9D101 or 9D103.
The export of goods specified in this entry is only prohibited to any destination in Libya, Iran, Iraq, Syria or South Africa.
Technology required for the development, production or use of goods specified in entry 9A990.
Technology required for the development, production or use of goods specified in entry 9A991.
The export of goods specified in this entry is only prohibited to any destination in Libya, Iran, Iraq, Syria or South Africa.
Technology required for the development, production or use of goods specified in entry 9A992.
Absorbers of electromagnetic waves | 1C001 |
Absorbers, hair type | 1C001a. |
Absorbers, non—planar and planar | 1C001a. |
Absorbers, paint | 1C001a. |
Accelerometers | 7A001 |
7A101 | |
Acoustic beam forming software | 6D003a. |
Acoustic devices for riot control purposes | PL5001 |
Acoustic hydrophone arrays, towed | 6A001a.2.b. |
Acoustic location and object detection systems | 6A001a.1.b. |
Acoustic positioning systems | 6A001a.1.d. |
Acoustic projectors | 6A001a.1.c. |
Acoustic systems | 6A001 |
Acoustic transducers (hydrophones) | 6A001a.2.a. |
Acoustic vibration test equipment | 9B006 |
Acoustic wave devices | 3A001c. |
Acoustic—optic signal processing devices | 3A001c.3. |
Active acoustic systems | 6A001a.1. |
Active flight control system technology | 7E004b. |
Active magnetic bearing systems | 2A005 |
Actively cooled mirrors | 6A005f.1. |
Adaptive control software | 2D002 |
ADC's, analogue—to—digital converters | 3A001a.5. |
3A101a. | |
4A003j. | |
Aero engines, military | ML10 |
Aero gas turbine engines | 9A001 |
Aerodynamic isotope separation plant | B10a. |
Aerodynamic separation element housings | B10b.3. |
Aerosol challenge testing chambers | 2B352 |
African swine fever virus | 1C352a. |
Aiming devices | ML5 |
Air independent power systems | 8A002j. |
Air traffic control software | 6D003d. |
Airborne equipment | ML10b. |
Aircraft components | ML10 |
9A992 | |
Aircraft, civil | 9A990 |
9A991 | |
Aircraft, military | ML10 |
Alexandrite | 6C005b. |
Alexandrite lasers | 6A005c.1. |
Align and expose equipment | 3B007 |
Alignment equipment for disk drives | 4B003 |
Alkylphenylene ethers | 1C006 |
Alloyed materials | 1C002 |
Alpha—emitting radionuclides | 1C236 |
Altimeters | 7A006 |
7A106 | |
Aluminides of titanium | 1C002 |
Aluminium alloys | 1C002 |
1C202 | |
Aluminium metal—organic compounds | 3C003 |
Aluminium oxide powder | A70 |
Aluminium powder | ML8 |
1C002 | |
1C115 | |
Americium | A20 |
Ammonia crackers | B40 |
Ammonia synthesis converters | 1B227 |
Ammonia—hydrogen exchange plant or towers | B40 |
Ammonium hydrogen fluoride | 1C350 |
Ammunition | ML3 |
PL5021 | |
Amorphous alloy strips | 1C003 |
Amphibious vehicles | ML6 |
Amplifiers, microwave | 3A001b.4. |
Analogue computers, ruggedised | 4A101 |
Analogue instrumentation tape recorders | 3A002a.1. |
Analogue—to—digital converters | 3A001a.5. |
3A101a. | |
4A003j. | |
Anechoic chambers | 9B106 |
Angular measuring instruments | 2B006 |
Animal pathogens | 1C352 |
Anti—g suits | ML10 |
Anti—riot shields and devices | PL5001 |
Antibodies | ML7 |
Antimony hydrides | 3C004 |
Approach parachutes | ML10 |
Arc remelt and casting furnaces | 2B227 |
Argon ion lasers | 6A005a.6. |
6A205a. | |
Armed vehicles | ML6 |
Armoured plate | ML13 |
Armoured railway trains | ML6 |
Armoured vehicles | ML6 |
Aromatic polyamide—imides | 1C008 |
Aromatic polyetherimides | 1C008 |
Aromatic polyimides | 1C008 |
Array processors | 4A003 |
Array processors, microcircuits | 3A001a.3. |
Arsenic hydrides | 3C004 |
Arsenic trichloride | 1C350 |
Artificial Intelligence | 4D003 |
Asynchronous transfer mode equipment | 5A001c.10. |
Atomic frequency standards | 3A002g. |
Atomic transition solid state lasers | 6A005c.2. |
Attitude control equipment | 7A116 |
Attitude Heading Reference Systems (AHRS), source code | 7D002 |
Autoclave regulation technology | 1E103 |
Autoclaves, for gaseous diffusion or centrifuge cascades | B20 |
Automatic piloting systems for parachuted loads | ML10 |
Avian influenza virus | 1C352 |
Avionics EMI protection | 7E102 |
Bacillus anthracis | 1C351 |
Bacteria | ML7 |
1C351 | |
1C352 | |
Balancing machines, centrifugal multiplane | 2B229 |
Ball bearings | 2A001 |
2A002Ba | |
llistic protection for military systems | ML13 |
Barium metal vapour lasers | 6A005a.2.d. |
Batch mixers | 1B115 |
Bathymetric survey systems | 6A001a.1.b. |
Batteries | 3A001e.1. |
Beam steering mirrors | 6A004a.4. |
Beamforming techniques | 6A001a.2.c.2. |
Bearing components | 2A007 |
Bearings, anti—friction | 2A |
Bearings, ball | 2A001 |
2A002 | |
Bearings, components for | 2A001 |
Bearings, fabric lined | 2A006 |
Bearings, for gas centrifuge rotor tubes | B10b.2. |
Bearings, gas—lubricated foil | 2A004 |
Bearings, magnetic | 2A005 |
Bearings, roller | 2A001 |
2A002 | |
Bearings, silent | ML9 |
Bearings, tapered roller | 2A003 |
Bellows pumps | 2B350 |
Bellows valves | 2B350 |
Bellows—forming dies | 2B228 |
Bellows—forming mandrels | 2B228 |
Benzilic acid | 1C350 |
Beryllium metal, alloys and compounds | 1C230 |
Beryllium/beryllium substrate blanks | 6C004d. |
Biocatalysts | ML7 |
Biological agents adapted for use in war | ML7 |
Biological containment facilities | 2B352 |
Biological isolators | 2B352 |
Biological systems | ML7 |
Biopolymers | ML7 |
Bioreactors | 2B352 |
Bismaleimides | 1C008 |
Bismuth | 1C229 |
Bit error rate (BER) test equipment | 5B001b. |
Blank ammunition | ML3 |
Blanks of beryllium beryllium (Be/Be) deposited material | 6C004d. |
Blowers | B10b.1. |
Bluetongue virus | 1C352 |
Body armour | ML13 |
Bombing computers | ML5 |
Bombs | ML4 |
Boring machines | 2B001 |
Boron and boron compounds | 1C225 |
Botulinum toxins | 1C351 |
Boules of electro—optic materials | 6C004b. |
Brayton cycle engine | 8A002j. |
Bridges, telecommunications | 5A001b. |
Brucella abortus | 1C351 |
Brucella melitensis | 1C351 |
Brucella suis | 1C351 |
Brush seal equipment | 9B003 |
Bulk acoustic wave devices | 3A001c.2. |
Bulk fluoride compounds | 6C004e.1. |
Bulk fluoride glass | 6C004e.2. |
Bullet—proof or bullet—resistant clothing | ML13 |
Butacene | 1C115 |
CAD software for ICs/semiconductor devices | 3D003 |
Cadmium mercury telluride (CdHgTe) crystals and epitaxial wafers | 6C002b. |
Cadmium telluride (CdTe) crystals and epitaxial wafers | 6C002b. |
Calcium | 1C227 |
Californium | A20 |
Cameras | 6A003 |
6A203 | |
Cameras, electronic framing type | 6A003a.4. |
6A203b.2. | |
Cameras, electronic streak type | 6A003a.3. |
6A203b.1. | |
Cameras, imaging | 6A003b. |
6A203c. | |
Cameras, mechanical | 6A003a. |
6A203a.1. | |
Cameras, military | ML15 |
Cameras, radiation hardened TV | 6A203c. |
Cameras, scanning and scanning camera systems | 6A003b.2. |
Cameras, underwater | 8A002e. |
Cameras, video using solid state sensors | 6A003b.1. |
Canned drive pumps | 2B350 |
Cannons | ML2 |
Capacitors | 3A001e.2. |
Capacitors | 3A201a. |
Carbines | ML1 |
Carbon dioxide (CO2) lasers | 6A005a.4. |
Carbon fibre | 1C010 |
1C210 | |
Carbon monoxide (CO) lasers | 6A005a.3. |
Carbon or alumina fibre conversion equipment | 1B001d. |
1B101d. | |
Carbon—carbon materials | 1A102 |
Carboxy—terminated polybutadiene (CTPB) | 1C115 |
Casting furnaces | 2B227 |
Castings, military | ML16 |
PL5020 | |
Catalysts, platinized | 1A225 |
Catalytic burners | B40 |
Cathode ray tubes, for oscilloscopes | 3A202 |
Cathodes for electronic tubes | 3A001b.1.c. |
Cathodic arc deposition production equipment | 2B005 |
Cellular radio equipment, software | 5D001c. |
Cellular radio systems technology | 5E001b.7. |
Cellular radio, hand—off | 5A001c.7. |
Cellular radio, switches | 5A001c.8. |
Centralised network control | 5A001d. |
Centrifugal decanters | 2B352 |
Centrifugal multiplane balancing machines | 2B229 |
Centrifugal separators | 2B352 |
Ceramic base materials | 1C007a.Ce |
ramic composite materials | 1C007 |
1C107 | |
Ceramic core manufacturing equipment | 9B001 |
Ceramic materials | 1C007 |
Ceramic shell manufacturing equipment | 9B001 |
Ceramic shells for blades and vanes | 9B001 |
Ceramic—matrix composite materials | 1C007 |
Certification software | 5D002c.2. |
Chambers, aerosol challenge testing | 2B352 |
Chemical exchange isotope separation plant | B10a. |
Chemical incinerators | 2B350 |
Chemical lasers | 6A005a.5. |
Chemical manufacturing equipment | 2B350 |
Chemical manufacturing facilities | 2B350 |
Chemical storage tanks and containers | 2B350 |
Chemical vapour deposition (CVD) production equipment | 2B005 |
Chemical vapour deposition equipment, fibre production | 1B001d. |
1B101d. | |
Chemical vapour deposition equipment, metal—organic | 3B001 |
Chemical vapour deposition equipment, plasma enhanced | 3B004 |
Chemicals | ML7 |
1C350 | |
Chemostats | 2B352 |
Chikungunya virus | 1C351 |
Chlamydia psittaci | 1C351 |
Chlorine trifluoride (C1F3) | 1C238 |
2—Chloroethanol | 1C350 |
Chlorofluorocarbons | 1C006 |
Cinema recording cameras | 6A003a.1. |
Clips | ML1 |
Closed—cycle refrigeration systems | 9A006 |
Clostridium botulinum | 1C351 |
Clostridium perfringens toxins | 1C351 |
CNC numerical control units | 2B001 |
CNC unit printed circuit boards | 2B009 |
Coating equipment for magnetic media | 4B001 |
Coating equipment for magneto—optical media | 4B001 |
Coating technology, for non—electronic substrates | 2E003d. |
Coatings for reduced visibility | 1C101 |
Cold traps for gaseous diffusion or centrifuge cascades | B20 |
Cold—cathode tubes | 3A228 |
Colour centre lasers | 6A005c.1. |
Colour monitors | 4A003i. |
Combat aircraft | ML10 |
Combatant vessels | ML9 |
Combined cycle engines | 9A011 |
Combustion regulation devices | 9A118 |
Command, Comms, Control and Intelligence (C3I) software | ML24 |
Common channel signalling | 5A001c.1. |
Communication channel controllers | 5A001b.3. |
Communications cable systems | 5A002g. |
Compasses, gyro—astro | 7A004 |
7A104 | |
Compilers | 4D003c. |
Components, electronic | 3A001 |
Composite and laminate manufactures for rockets | 9A110 |
Composite components/structures for rockets | 9A010 |
Composite structures | 1A202 |
Composite structures or laminates | 1A002 |
Compound rotary tables | 2B009 |
Compound semiconductor integrated circuits | 3A001a.11. |
Compressors | B10b. |
Compressors, hydrogen sulphide gas | B40 |
Computer—aided—design software for ICs/semiconductor devices | 3D003 |
Computers, analogue | 4A101 |
Computers, digital | 4A101 |
Computers, digital and related equipment | 4A003 |
Computers, hybrid | 4A002 |
4A102 | |
Computers, information security | 4A001b. |
Computers, neural | 4A004b. |
Computers, optical | 4A004c. |
Computers, radiation hardened/extended operating temperature | 4A001a. |
Computers, systolic array | 4A004a. |
Condensers | 2B350 |
Conductive polymers | 1C001 |
Congo—Crimean haemorrhagic fever virus | 1C351 |
Conotoxin | 1C351 |
Construction equipment, military | ML17 |
Contactors | B10b.4. |
B40 | |
Containment facilities | 2B352 |
Containers, chemical | 2B350 |
Continuous mixers | 1B115 |
Contrarotating propellers | 8A002o. |
Control rods, for nuclear reactors | B50 |
Control systems for gas turbine development | 9B002 |
Control systems for wind tunnels | 9B005 |
Controllable—pitch propellers | 8A002o. |
Controlled atmosphere melting and casting furnaces | 2B227 |
Controlled environment induction furnaces | 2B226 |
Controllers, machine tool | 2B001 |
Controllers, robot | 2B007 |
Converter integrated circuits | 3A001a.5. |
Cooling equipment for molten uranium | B10b.6. |
Copper metal vapour lasers | 6A005a.2.a. |
Coprocessors | 3A001a.3. |
Correlation—velocity sonar log equipment | 6A001c. |
Counter—current solvent extractors | B70 |
Countermeasure equipment | ML15 |
Coxiella burnetii | 1C351 |
Critically safe tanks | B70 |
Cross—flow filtration equipment | 2B352 |
Crossed—field amplifier tubes | 3A001b.1. |
Crucibles | 2A225 |
Crucibles, for molten uranium | B10b.6. |
Cryocoolers for optical sensors | 6A002d. |
Cryogenic containers | 9A006 |
Cryogenic distillation columns | 1B228 |
Cryogenic distillation towers and cold boxes | B40 |
Cryogenic equipment, military | ML20 |
Cryogenic refrigerators | 9A006 |
Cryptanalytic equipment or devices | 5A002b. |
Cryptography equipment or devices | 5A002a. |
5A002c. | |
CTPB, Carboxy—terminated polybutadiene | 1C115 |
Curium | A20 |
Custom integrated circuits | 3A001a.10. |
Cutting tool, diamond point | 2B008 |
CVD equipment | 1B001d. |
1B101d. | |
2B005 | |
3B004 | |
CVD Furnaces | 2B104 |
DAC's, digital—to—analogue converters | 3A001a.5. |
4A003j. | |
Damping or flotation fluids | 1C006 |
Data acquisition for wind tunnels | 9B005 |
Data acquisition systems for gas turbine development | 9B002 |
Data communication protocol analyzers | 5B001b. |
Data communication simulators | 5B001b. |
Data communication testers | 5B001b. |
Datagram packets | 5A001c.5. |
Decanters, centrifugal | 2B352 |
Defence equipment for toxicological agents | ML7 |
Deformable mirrors | 6A004a.1. |
Degassing equipment | 2B350 |
Demolition—charges | ML4 |
Demolition—devices | ML4 |
Demolition—kits | ML4 |
Dengue fever virus | 1C351 |
Depleted uranium | A10 |
Depth charges | ML4 |
Depth sounders | 6A001a.1. |
Desublimers for gaseous diffusion or centrifuge cascades | B20 |
Detection devices, military underwater | ML9 |
Detection or location systems | 6A001a.1.b. |
Detectors, optical | 6A002a. |
Detectors, radiation hardened | 6A102 |
Detonators | ML8 |
3A232 | |
Deuterated paraffins | A40 |
Deuterium | A40 |
Deuterium compounds, mixtures and solutions | A40 |
Deuterium compounds, production plant | B40 |
Deuterium fluoride (DF) lasers | 6A005a.5.b. |
Deuterium fluoride—carbon dioxide (DF—CO2) lasers | 6A005a.5.c.2. |
Deuterium, production plant | B40 |
Development equipment, military | PL5017 |
DF: Methyl phosphonyldifluoride | ML7 |
Diaphragm pumps | 2B350 |
Diaphragm valves | 2B350 |
Dibromotetrafluoroethane | 1C006 |
Diesel cycle engine, air independent | 8A002j. |
Diesel engines, non—magnetic | ML9 |
Diesel engines, specially designed for submarines | ML9 |
Diesel engines, technology for high output type | 9E003e. |
Diethyl ethylphosphonate | 1C350 |
Diethyl methylphosphonite | 1C350 |
Diethyl phosphite | 1C350 |
Diethyl—N, N—dimethylphosphoramidate | 1C350 |
Diethylaminoethanol | 1C350 |
Diffusion bonding technology for metal working | 2E003 |
Diffusion bonding tools, dies, moulds or fixtures | 1B003 |
Digital computers for speech or image recognition | 4A003a. |
Digital computers, assemblies and related equipment | 4A003 |
Digital computers, fault tolerance | 4A003b. |
Digital computers, ruggedised | 4A101 |
Digital differential analysers, ruggedised | 4A101 |
Digital exchanges | 5A001c. |
Digital instrumentation tape data recorders | 3A002a.3. |
Digital video tape recorders | 3A002a.2. |
Digital—to—analogue converter integrated circuits | 3A001a.5. |
Digital—to—analogue converters | 4A003j. |
Digitally controlled radio receiver | 5A001b.9. |
Diisopropylamine | 1C350 |
Dimensional inspection equipment | 2B006 |
Dimensional measuring equipment | 2B006 |
Dimethyl ethylphosphonate | 1C350 |
Dimethyl methylphosphonate | 1C350 |
Dimethyl phosphite | 1C350 |
Dimethylamine | 1C350 |
Dimethylamine hydrochloride | 1C350 |
Direct view imaging equipment | 6A002c. |
Directed energy weapons (DEW) systems | ML23 |
Direction finding equipment | 7A103 |
Direction finding, passive sensors | 7A115 |
Directional solidification casting equipment | 9B001 |
Directional solidification casting software | 9D004e. |
Disk drives | 4A003e. |
Disk head materials | 4C001 |
Disk head production or alignment equipment | 4B003 |
Displays | 4A003i. |
Disruption apparatus and devices | PL5006 |
Dissemination equipment for toxicological agents | ML7 |
Dissolvers | B70 |
Distillation columns | 2B350 |
Distillation columns, cryogenic | 1B228 |
Distillation equipment | B40 |
Distillation equipment for the purification of UF6 | B30 |
Distillation towers, packings | 1A226 |
Diving apparatus | ML17 |
Doppler laser interferometers (DLIs) | 6A225 |
Double—seal valves | 2B350 |
Double—seal pumps | 2B350 |
Drogue parachutes | ML10 |
Dry etching equipment | 3B003 |
Dummy ammunition | ML3 |
Dye lasers | 6A005d. |
6A205 | |
Dynamic adaptive routing | 5A001c.4. |
Dynamic signal analysers | 3A002c. |
Dynamic wavefront (phase) measuring equipment | 6A005g. |
Eastern equine encephalitis virus | 1C351 |
Ebola virus | 1C351 |
Eddy current test equipment for nuclear reactors | B100 |
EDM's | 2B001 |
EEPROMs | 3A001a.4. |
Electric motors for submarines | ML9 |
Electric propulsion engines | 8A002o. |
Electrical discharge machines | 2B001 |
Electrical erasable programmable read—only memories (EEPROMs) | 3A001a.4. |
Electrical pulsers | PL5024 |
Electrically driven explosive detonators | 3A232 |
Electrified riot control vehicles | PL5001 |
Electro—optic materials | 6C004 |
Electro—optical integrated circuits | 3A001a.6. |
Electrochemical reduction cells | B10b.4. |
Electrolysis cells, for lithium amalgams | B90 |
Electrolytic cells for fluorine production | 1B225 |
Electromagnetic interference protection technology, avionics | 7E102 |
Electromagnetic isotope separators | B10a. |
1B226 | |
Electromagnetic pulse (EMP) protection technology, avionics | 7E102 |
Electromagnetic radiation sensors using optical fibres | 6A002d.3.a. |
Electromagnets, superconductive | 3A001e.3. |
3A201b. | |
Electron beam cutting machines | 2B001 |
Electron beam equipment for mask making/semiconductor devices | 3B007 |
Electron beam guns | B10b.6. |
Electron beam melting furnaces | 2B227 |
Electron beam physical vapour deposition | 2B005c. |
Electron beam resist materials | 3C002 |
Electron beam systems, for probing semiconductor devices | 3B009 |
Electron bombardment mass spectrometers | 3A233 |
Electron cyclotron resonance (ECR) CVD equipment | 3B004 |
Electron cyclotron resonance (ECR) dry etching equipment | 3B003 |
Electronic cameras | 6A003a.5. |
Electronic computers | 4A001 |
Electronic computers, information security features | 4A001b. |
Electronic controls, for nuclear reactors | B50 |
Electronic equipment, military | ML11 |
Electronic framing cameras | 6A203b.2. |
Electronic streak cameras | 6A003a.3. |
Electronic streak cameras and streak tubes | 6A203b.1. |
Electronic vacuum tubes | 3A001b. |
Emulators for microcircuits | 3A002h. |
Encrypted software | 4D003e. |
5D002 | |
Encryption | 5A2 |
End effectors, robot | ML17 |
2B007 | |
2B207 | |
Enriched uranium | A20 |
Enrichment plant | B10 |
Environmental chambers | 9B106 |
Enzymes | ML7 |
Epitaxial growth equipment | 3B001 |
Erasable optical disk drives | 4A003e.1. |
o—Ethyl—2—diisopropylaminoethyl methylphosphonite | ML7 |
Ethyl phosphinyl dichloride | 1C350 |
Ethyl phosphinyl difluoride | 1C350 |
Ethyl phosphonyl dichloride | 1C350 |
Ethyl phosphonyl difluoride | 1C350 |
Evaporators for concentrated lithium hydroxide solution | B90 |
Exchanges | 5A001 |
Excimer lasers | 6A005a.1. |
Expander cycle turbine drive systems | 9A006 |
Expert systems software | 4D003 |
Expert systems, numerical control technology | 2E003a. |
Exploding bridge (EB) detonators | 3A232 |
Exploding bridge wire (EBW) detonators | 3A232 |
Exploding foil initiators (EFI) | 3A232 |
Explosive detection equipment | PL5006 |
Explosive devices, apparatus and devices for | PL5006 |
3A990 | |
Explosives | ML8 |
1C239 | |
1C991 | |
Fabric lined bearings | 2A006 |
FADEC software | 9D003 |
Fast select packets | 5A001c.6. |
Fault tolerant computers | 4A003b. |
Fermenters | 2B352 |
Fibre optic cable | 5A001e. |
Fibre optic components | 5A001e.2. |
Fibre optic hull penetrators or connectors | 8A002c. |
Fibre optic image inverters | 6A002a.2.b.1. |
Fibre optic magnetometers | 6A006e. |
Fibrous or filamentary material production | 1B001 |
1B101 | |
Fibrous or filamentary materials | 1C010 |
1C210 | |
Field engineer equipment | ML17 |
Field programmable gate arrays | 3A001a.7. |
Field programmable logic arrays | 3A001a.8. |
Filament winding machines | 1B001a. |
1B101a. | |
1B201 | |
Filament—wound composite motor cases | 9A008 |
Filling equipment, remotely controlled | 2B350 |
Film type integrated circuits | 3A001a. |
Filters, optical opacity switch | 6A004d.3. |
Fingers, for surface effect vessels | 8A002k. |
Fire bombs | ML4a. |
Fire control equipment | ML5 |
Firing sets | 3A229 |
Fissile materials | A20 |
Flack suits | ML13 |
Flame throwers | ML2 |
Flame towers, UF6 production | B30 |
Flash discharge X—ray generators | 3A201c. |
Flash discharge X—ray systems | 3A001e.5. |
Flash suppressors | ML1 |
Flexible disc media | 4C001 |
Flexible manufacturing unit software | 2D002 |
Flexible Nozzles | 9A106 |
9A108 | |
Flexible sensors for hydrophones | 6A001a.2.a.1. |
Flexible waveguides | 3A001b.7. |
Flight control system technology | 7E004b. |
Flight control systems | 7A116 |
Flight instrument systems, integrated | 7A103 |
Flight management system, integration technology for | 7E104 |
Flightweight dewars | 9A006 |
Flow—forming machines | 2B115 |
2B215 | |
Fluid bed reactors, UF6 production | B30 |
Fluid or secondary gas injection thrust systems | 9A108 |
Fluoride fibres and cable | 6A004f. |
Fluorinated compounds | 1C009 |
Fluorinated compounds, components | 1A001 |
Fluorinated hydrocarbon polymers | A70 |
Fluorinated phosphazene elastomers | 1C009 |
Fluorinated polyimides | 1C009 |
Fluorinated silicone fluids | 1C006 |
Fluorinating equipment, UF5 to UF6 | B10b.7. |
Fluorination and hydrofluorination screw, UF6 production | B30 |
Fluorine | 1C990 |
Fluorine production, electrolysis cells | 1C225 |
Fluorophosphate glass | 6C004f. |
Fluxgate magnetometers technology | 6E003c. |
Fly cutting machines | 2B002 |
Fly—by—wire systems | 7A116 |
Foam mirror structures, lightweight | 6A004a.3. |
Focal plane arrays, 2D and linear non—space—qualified | 6A002a.3. |
Foil bearings | 2A004 |
Foot and mouth disease virus | 1C352 |
Forgings, military | ML16 |
PL5020 | |
Framing cameras, electronic type | 6A203b.2. |
6A003a.4. | |
Framing cameras, mechanical | 6A203a.1. |
Framing tubes and solid state imaging devices | 6A203b.3. |
Francisella tularensis | 1C351 |
Free electron laser magnet wigglers | 6B005a.1. |
Free electron laser photo injectors | 6B005a.2. |
Free electron lasers | 6A005e. |
Freeze drying equipment, steam sterilisable | 2B352 |
Frequency agility (frequency hopping) radio equipment | 5A001b.8. |
Frequency agility systems | 5A002e. |
Frequency changers | B10b.2. |
3A225 | |
Frequency standards, atomic | 3A002g. |
Frequency synthesised signal generators | 3A002d. |
Frequency synthesiser assemblies | 3A002b. |
Fuel cell air independent power systems | 8A002j. |
Fuel element chopping or shredding machines | B70 |
Fuel element fabrication plant, for nuclear reactors | B60 |
Fuel element handling equipment, for nuclear reactors | B50 |
Fuels | ML8 |
1C115 | |
Furnaces, arc | 2B227 |
Furnaces, casting | 2B227 |
Furnaces, | CVD2B104 |
Furnaces, electron beam | 2B227 |
Furnaces, induction | 2B226 |
Furnaces, plasma atomisation | 2B227 |
Fused silica, low optical absorption types | 6C004f. |
GaAs photocathodes | 6A002a.2.b.3. |
GaInAs photocathodes | 6A002a.2.b.3. |
Gallium III/V compounds | 3C001 |
Gallium metal—organic compounds | 3C003 |
Gangchains | PL5001 |
Gas centrifuge isotope separation plant | B10a. |
Gas centrifuge plant auxiliary equipment | B20 |
Gas centrifuge rotor assembly equipment | 2B228 |
Gas centrifuge rotor balancing equipment | 2B229 |
Gas centrifuges | B10b.2. |
Gas discharge and ion lasers | 6A005a.6. |
Gas generator turbine drive system | 9A006 |
Gas lasers | 6A005a. |
Gas projectors or generators | ML2 |
Gas turbine blade and vane manufacturing equipment | 9B001 |
Gas turbine brush seal equipment | 9B003 |
Gas turbine development control system | 9B002 |
Gas turbine engine assemblies and components | ML10 |
9A003 | |
Gas turbine engine component technology | 9E003 |
Gas turbine engine development | 9B002 |
Gas turbine engines, aero | ML10 |
9A001 | |
Gas turbine engines, marine | 9A002 |
Gas turbine test/flow modelling software | 9D004 |
Gas—lubricated foil bearings | 2A004 |
Gaseous diffusion barriers and housings | B10b.1. |
Gaseous diffusion isotope separation plant | B10a. |
Gaseous diffusion plant auxiliary equipment | B20 |
Gate silicon intensifier target (SIT) videcon tubes | 6A203b.3.b. |
Gateways and bridges | 5A001b. |
Gear cutting machines | 2B003 |
Gear finishing machines | 2B003 |
Gear grinding machines | 2B003 |
Gear honing machines | 2B003 |
Genetically—modified microorganisms | 1C353 |
Geophones, terrestrial | 6A001b. |
Germanium | 3C001 |
Gimbals, for optical control | 6A004e.3. |
Glass | 6C004f. |
Glass fibre | 1C210 |
Glass fibre, for optical communications | 5A001e. |
Glass preforms, for optical fibres | 5C001 |
Global positioning systems (GPS) equipment | 7A005 |
7A105 | |
Glow discharge mass spectrometers (GDMS) | 3A233 |
Goat pox virus | 1C352 |
Gold (Au) metal vapour lasers | 6A005a.2.b. |
Gradiometers | 6A006 |
Gradiometers, gravity | 6A007c. |
Graphic displays | 4A003i. |
Graphics accelerators | 4A003h. |
Graphics coprocessors | 4A003h. |
Graphite heat exchangers | 2B350 |
Graphite materials | 1C107 |
Graphite, nuclear—grade | A50 |
Graphites | 1C107 |
Gravity gradiometer software | 6D003c. |
Gravity gradiometers | 6A007c. |
6A107 | |
Gravity meters (gravimeters) | 6A007 |
6A107 | |
Gravity meters (gravimeters) software | 6D003c. |
Grenades | ML4 |
Grinding machines | 2B001 |
Ground support vehicles | 9A115 |
Guidance sets | 7A117 |
Guidance sets, production facilities for | 7B103 |
Gun laying equipment | ML5 |
Gun—carriers | ML6 |
Guns | ML1 |
ML2 | |
Gyro—astro compasses | 7A004 |
7A104 | |
Gyros | 7A002 |
7A102 | |
Gyroscope manufacture | 7B003 |
Hafnium fluoride glass | 6C004f. |
Hafnium metal, alloys and compounds | 1C231 |
Hair type absorbers | 1C001a. |
Half—tracks | ML6 |
Hantaan virus | 1C351 |
Heading sensors, for towed hydrophones | 6A001a.2.b.4. |
Heat exchangers | B10b. |
B50 | |
2B350 | |
Heat shields | 9A116 |
Heat sinks | 9A116 |
Heat source materials | A30 |
Heavy water | A40 |
Heavy water, production plant | B40 |
Helicopter components and systems | 9A992 |
Helicopter power transfer system technology | 9E003d. |
Helicopter system development technology | 7E004c. |
Helicopters | ML10 |
9A990 | |
9A991 | |
Helium | 1C232 |
Hetero—epitaxial materials | 3C001 |
High birefringence optical fibres | 6A002d.3.b. |
High energy storage capacitors | 3A001e.2. |
3A201a. | |
High power electron beam guns | B10b.6. |
High pressure nozzles | 9A006 |
High pressure thrust chambers | 9A006 |
High pressure turbo pumps, pump components | 9A006 |
High—speed cameras | 6A003 |
6A203 | |
High—velocity gun systems | 2B232 |
HIPS | 2B004 |
2B104 | |
2B204 | |
Hollow cylinder centrifugal balancing machines | 2B229 |
Hopping code generation | 5A002e. |
Hot isostatic presses | 2B004 |
2B104 | |
2B204 | |
Hovercraft | 8A001 |
Howitzers | ML2 |
Hull connectors | ML9 |
Hull penetrators | ML9 |
Human pathogens | 1C351 |
Hybrid computers | 4A001 |
4A002 | |
4A102 | |
Hybrid integrated circuits | 3A001a. |
Hybrid rocket motors | 9A009 |
9A109 | |
Hybrid rocket propulsion systems | 9A009 |
9A119 | |
Hydraulic fluids | 1C006 |
Hydraulic pressing technology (metal working) | 2E003b. |
Hydraulic stretch—forming technology for airframes | 2E003c. |
Hydrocarbon oils | 1C006 |
Hydroclave regulation technology | 1E103 |
Hydrofoil vessels | 8A001h. |
Hydrofoils | 8A002m. |
Hydrogen distillation plant | B40 |
Hydrogen fluoride | 1C350 |
Hydrogen fluoride (HF) lasers | 6A005a.5.a. |
Hydrogen isotope storage and purification systems | 1B231 |
Hydrogen sulphide—water exchange plant | B40 |
Hydrophone arrays, towed acoustic | 6A001a.2.b. |
Hydrophones | 6A001a.2.a. |
3—Hydroxy—1—methylpiperidine | 1C350 |
Hydroxy—terminated polybutadiene (HTPB) | 1C115 |
III/V compounds of gallium or indium | 3C001 |
Image enhancement equipment | 4A003g. |
Image intensifier equipment, military | ML15 |
Image intensifier tubes | 6A002a.2. |
Image processing equipment, military | ML15 |
Imaging cameras | 6A003b. |
6A203c. | |
Imaging devices | 6A203b.3. |
Imaging equipment, for visible and infrared spectrum | 6A002c. |
Imaging equipment, military | ML15 |
Imaging sensors, multispectral | 6A002b. |
Imaging systems, underwater | 8A002f. |
Impregnated cathodes for electronic tubes | 3A001b.1. |
Improvised explosive devices, apparatus and devices for | PL5006 |
Incendiary bombs | ML4a. |
Incinerators, chemical | 2B350 |
Indium III/V compounds | 3C001 |
Indium metal—organic compounds | 3C003 |
Induction coil magnetometers | 6A006b. |
Induction furnace, inert gas | 2B226 |
Induction furnace, vacuum | 2B226 |
Inductively coupled plasma mass spectrometers (ICP/MS) | 3A233 |
Inert gas environment induction furnaces | 2B226 |
Inertial equipment for attitude, guidance or control | 7A003 |
Inertial navigation equipment | 7A003 |
7A103 | |
Inertial navigation system software | 7D102 |
Inertial sensors using optical fibres | 6A002d.3.a. |
Information security production equipment | 5B002 |
Information security software | 4D003e. |
5D002 | |
Information security systems | 5A002 |
Infrared absorption analysers | B40 |
Infrared or thermal imaging equipment | ML15 |
Injectors for use with liquid propelling charges | ML2 |
Input/output control units for computers | 4A003f. |
Instrumentation cameras | 6A003a. |
6A203 | |
Instrumentation for gas turbine development | 9B002 |
Instrumentation for wind tunnels | 9B005 |
Insulation | 9A108 |
Insulation bonding systems | 9A008 |
Integrated circuits | 3A001a. |
3A001b.2. | |
Integrated flight instrument systems | 7A103 |
Integrated Services Digital Network (ISDN) equipment | 5A001c.2. |
Integrated Services Digital Network (ISDN) technology | 5E001b.8. |
Integration technology for flight management systems | 7E104 |
Interior linings | 9A108 |
Interlacing machines | 1B001c. |
1B101c. | |
Intermediate amplifier equipment | 5A001b. |
Interstages for rockets | 9A117 |
Intrinsic magnetic gradiometers | 6A006f. |
Inverse synthetic aperture radar (ISAR) | 6A008d. |
Ion beam equipment for mask making/semiconductor devices | 3B007 |
Ion beam systems, for masks or semiconductor devices | 3B005 |
Ion beams resist materials | 3C002 |
Ion implantation equipment | 3B002 |
Ion implantation production equipment | 2B005 |
Ion plating production equipment | 2B005 |
Ion—exchange isotope separation plant | B10a. |
Ion—exchange processing | B70 |
Ion—exchange resins | B10b.5. |
Isolators, biological | 2B352 |
Isophorone diisocyanate (IPDI) | 1C115 |
Isostatic presses | 2B004 |
2B104 | |
2B204 | |
Isotope separation, lithium | B90 |
Isotope separators | B10 |
1B226 | |
Japanese encephalitis virus | 1C351 |
Jet probes | 9A106 |
9A108 | |
Jet vanes | 9A106 |
9A108 | |
Josephson effect devices | 6A006h. |
Joule—Thomson self—regulating minicoolers | 6A002d.2.b. |
Junin virus | 1C351 |
Kerr or pockel cell electro—optical shuttering | 6A203b.3.c. |
Kinetic energy weapon systems | ML26 |
Krypton ion lasers | 6A005a.6. |
Krytron tubes | 3A228 |
Laminates | 1A002 |
1A202 | |
Laminates for propulsion systems | 9A110 |
Laminates for space vehicles | 9A110 |
Land—based gravity meters production equipment | 6B007 |
Large calibre armaments | ML2 |
Laser beam cutting machines | 2B001 |
Laser beam equipment for mask making/semiconductor devices | 3B007 |
Laser beam systems, for probing semiconductor devices | 3B009 |
Laser communication technology | 5E001b.2. |
Laser diagnostic equipment | 6A005g. |
Laser diodes | 6A005b. |
Laser isotopic separation plant | B10a. |
Laser measuring instruments | 2B006 |
Laser radar | 6A108 |
Laser radar or Light Detection and Ranging (LIDAR) equipment | 6A008j. |
Laser ring gyro test equipment | 7B002 |
Laser weapon systems | ML23 |
Lasers | ML23 |
6A005 | |
6A205 | |
Lassa fever virus | 1C351 |
Lathes | 2B001 |
Launch support equipment | 9A115 |
Launch vehicle composite components/structures | 9A010 |
Launch vehicles | 9A004 |
9A115 | |
Leg—irons | PL5001 |
Lidar equipment | 6A008j. |
Lift fans, for surface effect vessels | 8A002l. |
Light gas gun | ML26 |
2B232 | |
Light systems, underwater | 8A002g. |
Lightweight composite or foam mirror structures | 6A004a.3. |
Lightweight monolithic mirrors | 6A004a.2. |
Lightweight turbofan engines | 9A101 |
Lightweight turbojet engines | 9A101 |
Line terminating equipment | 5A001b. |
Linear focal plane arrays | 6A002a. |
Linear measuring instruments | 2B006 |
Linear position feedback units | 2B008 |
Linear—angular inspection equipment | 2B006 |
Liquid jet cutting machines | 2B001 |
Liquid lasers | 6A005d. |
Liquid oxidisers | 1C115 |
Liquid propellant control systems | 9A106 |
Liquid propellant rocket engines | 9A005 |
9A105 | |
Liquid rocket propulsion system components | 9A006 |
9A106 | |
Liquid rocket propulsion systems | 9A005 |
9A105 | |
9A119 | |
Liquid—liquid exchange columns, for lithium amalgams | B90 |
Lithium isotope separation equipment | B90 |
Lithium metal, hydrides or alloys | 1C233 |
Lithography equipment | 3B007 |
Local area network interfaces | 4A003k. |
Location and object detection systems, acoustic | 6A001a.1.b. |
Lubricating materials | 1C006 |
Lymphocytic choriomeningitis virus | 1C351 |
Lyssa virus | 1C352 |
Machine guns | ML1 |
Machine pistols | ML1 |
Machine tool assemblies | 2B008 |
Machine tool components | 2B008 |
Machine tool controller technology | 2E003a. |
Machine tool controllers | 2B001 |
Machine tool cutting tools | 2B008 |
Machine tool feedback units | 2B008 |
Machine tool slides | 2B008 |
Machine tool spindles | 2B008 |
Machine tools for generating optical quality surfaces | 2B001 |
2B002 | |
Machine tools for grinding | 2B001 |
Machine tools for milling | 2B001 |
Machine tools for turning | 2B001 |
Machining centres | 2B001 |
Machupo virus | 1C351 |
Magnesium alloys or powders | 1C002 |
Magnesium, high purity | 1C228 |
Magnetic bearings | 2A005 |
Magnetic compensation systems for magnetic sensors | 6A006g. |
Magnetic compensation systems software | 6D003b. |
Magnetic confinement CVD equipment | 3B004 |
Magnetic confinement dry etching equipment | 3B003 |
Magnetic disk drive technology | 4E002c. |
Magnetic drive pumps | 2B350 |
Magnetic gradiometers | 6A006d. |
Magnetic media test equipment | 4B002 |
Magnetic metals | 1C003 |
Magnetic suspension bearings | B10b.2. |
Magnetic/magneto—optical disk drives | 4A003e.1. |
Magnetic/magneto—optical disk head materials | 4C001 |
Magnetic/magneto—optical media coating equipment | 4B001 |
Magnetometer systems | 6A006 |
Magnetometers | 6A006 |
Magnetostrictive alloys | 1C003 |
Main storage, computer | 4A003e. |
Manganin gauges | 6A226 |
Manipulators | 2B225 |
Manipulators, for submersibles | 8A002i. |
Manned, tethered submersible vehicles | 8A001a. |
Manned, untethered submersible vehicles | 8A001b. |
Maraging steel | 1C116 |
1C216 | |
Marburg virus | 1C351 |
Marine acoustic systems | 6A001a. |
Marine gas turbine engines | 9A002 |
Masks for integrated circuits | 3B008 |
Mass spectrometers/ion sources | B20 |
Mass spectrometers and ion sources | 3A233 |
Materials for reduced reflectivity | ML17 |
Materials for reduced reflectivity | 1C101 |
Mechanical cameras | 6A003a.3. |
Mechanical framing cameras | 6A203a.1. |
Mechanical high speed cameras | 6A003a.2. |
6A203a. | |
Mechanical streak cameras | 6A203a.2. |
Media access units | 5A001b. |
Melting furnaces | 2B227 |
Memory integrated circuits | 3A001a.4. |
Mercury cadmium telluride (CdHgTe) crystals and epitaxial wafers | 6C002b. |
Metal alloy powder | 1C002 |
Metal coated fibre preforms for propulsion systems | 9A110 |
Metal coated fibre preforms for space vehicles | 9A110 |
Metal organic chemical vapour deposition (MOCVD) reactors | 3B001 |
Metal powder fuels | 1C115 |
Metal powder production equipment | 1B002 |
Metal vapour lasers | 6A005a.2. |
Metal working process technology | 2E003b. |
Metal—organic compounds | 3C003 |
Metering devices for use with liquid propelling charges | ML2 |
Methyl benzilate | 1C350 |
Methyl phosphinyl dichloride | 1C350 |
Methyl phosphinyl difluoride | 1C350 |
Methyl phosphonyl dichloride | 1C350 |
Methyl phosphonyl difluoride | ML7 |
Microchannel plates, for image intensifier tubes | 6A002a.2. |
Microcomputer microcircuits | 3A001a.3. |
Microcontroller microcircuits | 3A001a.3. |
Microcystins (Cyanginosins) | 1C351 |
Microfluorination ion source | 3A233 |
Microorganisms | 1C353 |
Microprocessor microcircuits | 3A001a.3. |
Microwave assemblies | 3A001b.6. |
Microwave devices | 3A001b. |
Microwave integrated circuits | 3A001b.2. |
Microwave modules | 3A001b.2. |
Microwave solid state amplifiers | 3A001b.4. |
Microwave test receivers | 3A002f. |
Microwave transistors | 3A001b.3. |
Microwave weapon systems | ML23 |
Military aero—engines | ML10 |
Military aircraft | ML10 |
Military cartridges | ML4 |
Military development equipment | PL5017 |
Military electronic equipment | ML11 |
Military engines and power transfer systems | ML6 |
Military flame throwers | ML2 |
Military half—tracks | ML6 |
Military helicopters | ML10 |
Military helmets | ML10 |
ML13 | |
Military mobile repair shops | ML6 |
Military production equipment | ML18 |
Military pyrotechnics | ML4 |
Military simulation equipment | ML14 |
Military simulators | ML4 |
Military smoke projectors or generators | ML2 |
Military training equipment | ML14 |
Military type armed or armoured vehicles | ML6 |
Military underwater detection devices | ML9 |
Military vehicles and components | ML6 |
Military weapon systems software | ML24 |
Millimetre wave devices | 3A001b. |
Milling machines | 2B001 |
Mines | ML4 |
Mirror assemblies/segments, for space assembly | 6A004c.3. |
Mirror control equipment | 6A004e. |
Mirror positioning gimbals | 6A004e.3. |
Mirror structures, lightweight foam or composite type | 6A004a.3. |
Mirrors, actively cooled | 6A005f.1. |
Mirrors, beam steering | 6A004a.4. |
Mirrors, optical | 6A004a. |
6A005f.2. | |
Missiles | ML4 |
Mixers, batch and continuous | 1B115 |
Mobile repair shops, military | ML6 |
Modems | 4A003k. |
5A001b. | |
Molecular beam epitaxial growth equipment using gas sources | 3B001 |
Molecular beam mass spectrometers | 3A233 |
Molecular pumps | B(10)b.2. |
Molybdenum and alloys | 1C117 |
Monitoring systems, toxic gas | 2B351 |
Monitors, designed as computer VDU's | 4A003i. |
Monkey pox virus | 1C351 |
Monolithic integrated circuits | 3A001a. |
Mortars | ML2 |
Motion control boards | 2B001 |
Motor stators | B(10)b.2. |
Movable engines | 9A106 |
9A108 | |
Movable nozzles | 9A008 |
9A106 | |
9A108 | |
Multi—chamber central wafer handling systems | 3B006 |
Multichip integrated circuits | 3A001a. |
Multilevel security equipment | 5A002f. |
Multiplex equipment | 5A001b. |
Multipoint initiation systems | 3A232 |
Multispectral imaging sensors | 6A002b. |
Multistage light gas gun systems | ML26 |
2B232 | |
Mycoplasma mycoides | 1C352 |
N,N—Diisopropyl—(Beta)—amino ethanol | 1C350 |
N,N—Diisopropyl—(Beta)—aminoethane thiol | 1C350 |
N,N—Diisopropyl—(Beta)—aminoethyl chloride | 1C350 |
N,N—Diisopropyl—(beta)—aminoethyl chloride hydrochloride | 1C350 |
Natural uranium | A10 |
Naval equipment | ML9 |
Neodymium glass lasers | 6A005c.2. |
Neodymium—doped lasers | 6A005c.2. |
Neptunium—237 | A30 |
Network access controllers | 4A003k. |
5A001b.3. | |
Network analysers | 3A002e. |
Neural computers | 4A004b. |
Neural network integrated circuits | 3A001a.9. |
Neutron generators | 3A231 |
Newcastle disease virus | 1C352 |
Nickel alloys or powders | 1C002 |
Nickel powder | A60 |
Niobium alloys or powders | 1C002 |
2—Nitrodiphenylamine | 1C115 |
Noise reduction systems, for vessels | 8A002o. |
Non—destructive inspection equipment | 1B001f. |
Non—fluorinated polymeric substances | 1C008 |
Non—fluorinated polymeric substances, manufactures of | 1A003 |
Non—linear optical materials | 6C004b.3. |
Non—magnetic diesel engines | ML9 |
Non—tunable solid state lasers | 6A005c.2. |
Nozzles, aerodynamic isotope separation | B10b.3. |
Nozzles, pyrolitic deposition | 1B116 |
Nozzles, rocket | 9A006 |
9A008 | |
9A106 | |
9A108 | |
Nuclear reactors and reactor components | B50 |
Numerical control software | 2D002 |
Numerical control technology | 2E003a. |
Numerical control units | 2B001 |
Numerically controlled machine tools | 2B |
Object detection or location systems | 6A001a.1.b. |
Ocean salvage systems | 8A001e. |
On—board weapon control systems | ML5 |
Operating system development tools and compilers | 4D003c. |
Operating system software | 4D003 |
Optical components for lasers | 6A005f. |
Optical components, space—qualified | 6A004c. |
Optical components, zinc selenide or zinc sulphide | 6A004b. |
Optical computers | 4A003c. |
Optical control equipment | 6A004e. |
Optical detectors | 6A102 |
Optical detectors and sensors | 6A002 |
Optical disk drives | 4A003e.1. |
Optical equipment | 6A005g. |
Optical fabrication technologies | 6E003a.2. |
Optical fibre | 5A001e.1. |
Optical fibre cable | 5A001e. |
Optical fibre cable, fluoride fibre | 6A004f. |
Optical fibre cable/accessories for underwater use | 5A001e.3. |
Optical fibre characterisation equipment | 5B001 |
Optical fibre connectors | 5A001e. |
Optical fibre couplers | 5A001e. |
Optical fibre manufacturing equipment | 5B001 |
Optical fibre preforms | 5C001 |
Optical fibre preforms, fluoride fibres | 6C004h. |
Optical fibre preforms, high birefringence fibres | 6A002c. |
Optical fibre sensing elements, for hydrophones | 6A001a.2.a.2. |
Optical fibre, components and accessories | 5A001e.2. |
Optical fibre, fluoride | 6A004f. |
Optical fibre, high birefringence | 6A002d.3. |
Optical fibre, sensing | 6A002d.3. |
Optical filters | 6A004d. |
Optical integrated circuits | 3A001a.6. |
Optical materials, with non—linear characteristics | 6C004b.3. |
Optical mirrors | 6A005f.2. |
Optical mirrors (reflectors) | 6A004a. |
Optical opacity switches (filters) | 6A004d.3. |
Optical sensors | 6A002 |
6A102 | |
Optical sensors using optical fibres | 6A002d.3a. |
Optical surface coating/treatment technology | 6E003a.1. |
Optical switching equipment | 5A001c.9. |
Optics | 6A004 |
Oscilloscopes | 3A202 |
Oxygen Iodine (O2—I) laser | 6A005a.5. |
PABX's | 5A001c. |
Packet switching equipment | 5A001c.8. |
Para—hydrogen Raman shifters | 6A205e. |
Parachutes | ML10 |
Paragliders | ML10 |
Particle beam weapon systems | ML23 |
Passive acoustic systems | 6A001a.2. |
Passive sensors for direction finding | 7A115 |
Pasteurella pseudotuberculosis var pestis (Yersinia pestis) | 1C351 |
Pathogens | ML7 |
1C351 | |
1C352 | |
1C353 | |
PCM testers | 5B001b. |
Peste des petits ruminants virus | 1C352 |
Phased array antennae | 5A001f. |
Phased array mirror control equipment | 6A004e.4. |
Phenylene | 1C006 |
Phosphate glass | 6C004f. |
Phosphorus hydrides | 3C004 |
Phosphorus oxychloride | 1C350 |
Phosphorus pentachloride | 1C350 |
Phosphorus pentasulphide | 1C350 |
Phosphorus trichloride | 1C350 |
Photocathodes of GaAs or GaInAs | 6A002a.2.b. |
Photodiodes, single and multi—element semiconductor type | 6A002a.4. |
Photographic still cameras, underwater | 8A002e. |
Photomultiplier tubes | 6A202 |
Phototransistors, single—element and multi—element | 6A002a.4. |
Photovoltaic arrays, space qualified and radiation hardened | 3A001e.1. |
Piezoelectric polymers | 1A001 |
Piezoelectric sensing elements, for hydrophones | 6A001a.2.a. |
Pinacolone | 1C350 |
Pinacolyl alcohol | 1C350 |
Pistols | ML1 |
PLA's | 3A001a.8. |
Planar absorbers | 1C001a. |
Plasma atomisation furnaces | 2B227 |
Plasma dry etching equipment | 3B003 |
Plasma enhanced CVD equipment | 3B004 |
Plasma isotope separation plant | B10a. |
Platinized catalysts | 1A225 |
Plutonium | A20 |
Plutonium—238 | A30 |
Pneumatic tyre casings | ML6 |
Polyphenylene—vinylene | 1C001c. |
Polythienylene—vinylene | 1C001c. |
Polyamide—imides | 1C008 |
Polyaniline | 1C001c. |
Polyarylene ether ketones | 1C008 |
Polyarylene ketones | 1C008 |
Polyarylene sulphides | 1C008 |
Polybiphenylenethersulphone | 1C008 |
Polybromotrifluoroethylene | 1C006 |
Polybutadiene—acrylic acid (PBAA) | 1C115 |
Polybutadiene—acrylic acid—acrylonitrile (PBAN) | 1C115 |
Polycarbosilazanes | 1C007 |
Polychlorotrifluoroethylene | 1C006 |
Polydiorganosilanes | 1C007 |
Polyether ether ketone (PEEK) | 1C008 |
Polyether ketone (PEK) | 1C008 |
Polyether ketone ether ketone ketone (PEKEKK) | 1C008 |
Polyether ketone ketone (PEKK) | 1C008 |
Polyetherimides | 1C008 |
Polyimides | 1C008 |
Polyimides, fluorinated | 1C009 |
Polymeric substances, fluorinated | 1C009 |
Polymeric substances, fluorinated, components of | 1A001 |
Polymeric substances, for propellants | 1C115 |
Polymeric substances, non—fluorinated | 1C008 |
Polymeric substances, non—fluorinated, manufactures of | 1A003 |
Polymers, piezoelectric | 1A001 |
Polypyrrole | 1C001c. |
Polysilazanes | 1C007 |
Polythiophene | 1C001c. |
Porcine enterovirus type | 91C352 |
Porcine herpes virus (Aujeszky’s disease) | 1C352 |
Porous nickel metal | A60 |
Portable anti—riot devices | PL5001 |
Positioning equipment | 7A005 |
7A105 | |
Positioning systems, acoustic | 6A001a.1.d. |
Positive resists | 3C002 |
Post—flight processing software | 6D103 |
Potassium bifluoride | 1C350 |
Potassium cyanide | 1C350 |
Potassium fluoride | 1C350 |
Potassium titanyl arsenate (KTA) | 6C004b.1. |
Powder metallurgy manufacturing equipment | 9B009 |
Power generating equipment | B80 |
PL5029 | |
Power supplies, direct current high power | 3A226 |
Power supplies, direct current high—voltage | 3A227 |
Power transmission shaft systems, marine | 8A002o. |
Precision tracking systems, usable for missiles | 6A108b. |
Preforms, of fibrous or filamentary materials | 1C010 |
9A110 | |
Preforms, of glass for fluoride fibres | 6C004h. |
Preforms, of glass for high birefringence optical fibres | 6C002 |
Preforms, of glass for optical fibres | 5C001 |
Prepreg production equipment | 1B001e. |
1B101e. | |
Prepregs, of fibrous or filamentary materials | 1C010 |
9A110 | |
Presses, isostatic | 2B004 |
2B104 | |
2B204 | |
Pressure measuring instruments | 2B230 |
Pressure refuellers | ML10 |
Pressure sensors | 6A226 |
Pressure suits | ML10 |
Pressure tubes, for fuel elements and primary coolant | B50 |
Pressure vessels, for nuclear reactors | B50 |
Primary cells | 3A001e.1. |
Printed circuit boards, machine tool | 2B009 |
Private automatic exchanges | 5A001c. |
Process control instrumentation, for reprocessing plant | B70 |
Product and tails collector systems, uranium vapour | B10b. |
Product and tails stations | B20 |
Production equipment for propulsion systems and components | 9B115 |
Production equipment for reentry vehicles | 9B115 |
Production equipment, military | ML18 |
Production facilities for reentry vehicles | 9B116 |
Production facilities; rockets, propulsion systems and components | 9B116 |
Production technology, military | ML18 |
Programmable logic arrays | 3A001a.8. |
Programme proof and validation software | 4D003a. |
Projectile launchers | ML2 |
Projectiles | ML3 |
PL5021 | |
Projection telescopes, for laser diagnostics | 6A005g.4. |
Projectors, acoustic | 6A001a.1.c. |
Propellant bonding systems | 9A008 |
Propellant control systems | 9A106 |
Propellant production equipment | 1B115 |
Propellant storage systems | 9A006 |
Propellants | ML8 |
Propellants for spacecraft | 1C115 |
Propeller blades or propfans composite technology | 9E003b. |
Propellers | 8A002o. |
Propulsion equipment, nuclear | B80 |
Propulsion system composite components/structures | 9A010 |
9A110 | |
Propulsion system, rocket | 9A005 |
9A007 | |
9A009 | |
9A119 | |
Propulsion system test, inspection, production software | 9D101 |
Protocol analysers | 5B001b. |
Proximity focused image intensifier tubes | 6A203b.3.a. |
Pseudomonas mallei | 1C351 |
Pseudomonas pseudomallei | 1C351 |
Pulse generators, high—current for controlled detonators | 3A229 |
Pulse generators, high—speed | 3A230 |
Pulse jet engines | 9A111 |
Pulse radar cross—section measurement systems | 6B008 |
Pulsed electron accelerators | 3A201c. |
Pumpjet propulsion systems | 8A002p. |
Pumps, bellows | 2B350 |
Pumps, canned drive | 2B350 |
Pumps, diaphragm | 2B350 |
Pumps, double—seal | 2B350 |
Pumps, for liquid propellants | 9A106 |
Pumps, for lithium amalgams | B90 |
Pumps, for nuclear reactor coolant | B50 |
Pumps, for potassium amide in liquid ammonia1 | B230 |
Pumps, magnetic drive | 2B350 |
Pumps, molecular | B10b.2. |
Pumps, submersible stage recirculation | B40 |
Pumps, vacuum | 2B231 |
Pyrolitic deposition nozzles | 1B116 |
Pyrolitic deposition systems | 2B104 |
Pyrolitic deposition technology | 9E103 |
Pyrolized carbon—carbon materials | 1A102 |
Pyrolysis equipment | 2B104 |
Pyrolysis equipment software | 2D101 |
Pyrolysis process control equipment | 2B104 |
Pyrotechnic flare signals, military | ML4a. |
Pyrotechnic projectors or generators | ML2 |
Pyrotechnics | ML4 |
ML8 | |
Q—switched lasers | 6A005c.2. |
QL:o—Ethyl—2—di—isopropylamino ethyl methylphosphonite | ML7 |
Quadrature amplitude modulation equipment | 5A001a.6. |
Quartz crystals | PL5026 |
Quartz pressure transducers | 6A226b. |
3—Quinuclidinol | 1C350 |
3—Quinuclidone | 1C350 |
Radar cross section measurement systems | 6B108 |
Radar systems | 6A008 |
6A108 | |
Radiation hardened detectors | 6A102 |
Radiation hardened integrated circuits | 3A001a.1. |
Radiation hardened, computers | 4A001a.2. |
Radiation sensitive optical fibres | 6A002d.3. |
Radiation shielding windows | 1A227 |
Radiation—hardened TV cameras | 6A203c. |
Radio equipment (transmitters, receivers and transceivers) | 5A001b. |
Radio frequency ion excitation coils | B10b.8. |
Radio transmission media simulators/channel estimators | 5B001b. |
Radioactive materials adapted for use in war | ML7 |
Radiographic equipment | 3A101b. |
Radium—226 | 1C237 |
Radome design software | 6D003d. |
Radomes | PL5019 |
RAM disks | 4A003e.2. |
Ram type electrical discharge machines | 2B001 |
Raman shift lasers | 6A205e. |
Ramjet engines | 9A011 |
Range instrumentation radars | 6A108b.2. |
Range—finding systems | ML5 |
Rankine cycle engine | 8A002j. |
Reactor vessels, chemical | 2B350 |
Reactors, nuclear | B50 |
Receptors | ML7 |
Rechargeable cells | 3A001e.1. |
Reciprocating diesel engine, technology | 9E003e.1. |
Reciprocating engines | ML10 |
Recoilless rifles | ML2 |
Recorders, military | ML15 |
Recording equipment | 3A002a. |
Recovery parachutes | ML10 |
Recovery vehicles | ML6 |
Reentry vehicles | 9A116 |
Reflectance measuring equipment | 6B004 |
Reflectivity reducing materials | ML17 |
1C101 | |
Reflectometers | 7B102 |
Refrigeration units, hydrogen or helium | 1B231 |
Refuellers, pressure | ML10 |
Refuelling apparatus and devices | PL5006 |
Remote manipulators | 2B225 |
Remotely operated filling equipment, chemical | 2B350 |
Remotely piloted air vehicles (RPVs) | ML10 |
Repeater/regenerator equipment, telecommunications | 5A001b. |
Reprocessing plant, nuclear fuel | B70 |
Resaturated pyrolized materials | 1A102 |
Resin impregnated fibre prepregs for propulsion systems | 9A110 |
Resin impregnated fibre prepregs for space systems | 9A110 |
Resist coated substrates | 3C002 |
Resist materials | 3C002 |
Reticles for integrated circuits | 3B008 |
Revolvers | ML1 |
Ricin | 1C351 |
Rickettsiae | 1C351 |
Rickettsia prowasecki | 1C351 |
Rickettsia quintana | 1C351 |
Rickettsia rickettsii | 1C351 |
Rifles | ML1 |
Rift Valley fever virus | 1C351 |
Rigid magnetic media test equipment | 4B002 |
Rinderpest virus | 1C352 |
Ring laser gyro mirror characterizing equipment | 7B002 |
Riot control agents | ML7 |
Riot control vehicles and equipment | PL5001 |
Robot controllers | ML17 |
2B007 | |
Robot end—effectors | 2B007 |
2B207 | |
Robots | ML17 |
2B007 | |
2B207 | |
Robots, for underwater use | 8A002h. |
Rocket launchers, military | ML2a. |
Rocket modelling, simulation and integration software | 9D103 |
Rocket motor cases | 9A008 |
9A108 | |
Rocket motor inspection equipment | 9B007 |
Rocket motor insulation | 9A008 |
9A108 | |
Rocket motors, liquid | 9A005 |
9A105 | |
Rocket motors, solid | 9A007 |
Rocket motors, hybrid | 9A009 |
9A109 | |
Rocket nozzles | 9A006 |
9A008 | |
9A106 | |
9A108 | |
Rocket stages | 9A005 |
9A007 | |
9A009 | |
9A119 | |
Rockets | ML4 |
9A004 | |
9A104 | |
Roller bearings | 2A001 |
2A002 | |
2A003 | |
Rotary position feedback units | 2B008 |
Rotor assemblies, gas centrifuge | B10b.2. |
Rotor assembly equipment | 2B228 |
Rotor centrifugal balancing machines | 2B229 |
Rotor straightening equipment | 2B228 |
Rotor tube cylinders and components, gas centrifuge | B10b.2. |
Routers | 5A001c.8. |
Ruby lasers | 6A005c.2.a. |
Russian Spring—Summer encephalitis virus | 1C351 |
Salmonella typhi | 1C351 |
Salvage systems, ocean | 8A001e. |
Satellites | 9A004 |
Saxitoxin | 1C351 |
Scanning cameras and systems | 6A003b.2. |
Scramjet engines | 9A011 |
Seals, for surface effect vessels | 8A002k. |
Secondary cells | 3A001e.1. |
Security and para—military police equipment | PL5001 |
Security equipment, information | 5A002 |
Segmented mirrors, for assembly in space | 6A004c.3. |
Self—propelled guns | ML6 |
Semi—finished products, military | ML16 |
PL5020 | |
Semiconductor lasers | 6A005b. |
Semiconductor test equipment | 3B009 |
Sensing elements, hydrophone | 6A001a.2.a. |
Sensors, multispectral imaging | 6A002b. |
Sensors, optical | 6A002 |
Sensors, radiation hardened | 6A102 |
Separation mechanisms for rockets | 9A117 |
Separation nozzles, isotope separation | B10b.3. |
Separation tubes, isotope separation | B10b.3. |
Separators, centrifugal | 2B352 |
Servo valves, propellant control systems | 9A106 |
Shackles | PL5001 |
Shaft encoders | 3A001f. |
Sheep pox virus | 1C352 |
Shiga toxin | 1C351 |
Shigella dysenteriae | 1C351 |
Ships, with decks/platforms strengthened for weapons | 8A991 |
Sidelooking airborne radar (SLAR) | 6A008d. |
Sighting devices, military | ML5 |
Signal analysers | 3A002c. |
Signal generators, frequency synthesised | 3A002d. |
Signal processing devices, acousto—optic | 3A001c.3. |
Signal processing equipment | 4A003g. |
Signal processing equipment for hydrophone arrays | 6A001a.2.c. |
Signal processor microcircuits | 3A001a.3. |
Signal tracking technology | 5E001b.2. |
Signature reduction devices | ML2 |
1C101 | |
Signature suppression, military use | ML17 |
Silahydrocarbon oils | 1C006 |
Silencers | ML1 |
Silent bearings | ML9 |
Silicon | 3C001 |
Silicon carbide (SiC) substrate blanks | 6C004d. |
Silicon microcircuits | 3A001 |
Silicon—on—sapphire integrated circuits | 3A001a. |
Silicone fluid, fluorinated | 1C006 |
Silver gallium selenide (AgGaSe2) | 6C004b.2. |
Silyated resists | 3C002 |
Simulation equipment, military | ML14 |
Simulators for nuclear reactors | B100 |
Simulators, military | ML4 |
Single crystal casting control software | 9D004e. |
Single crystal casting equipment | 9B001 |
Single point diamond cutting tool inserts | 2B008 |
Single point diamond turning techniques, technology | 6E003a.2.b. |
Skin friction transducers | 9B008 |
Skirts, for surface effect vessels | 8A002k. |
Slapper detonators | 3A232 |
Slide way assemblies | 2B008 |
Slurry propellant control systems | 9A106 |
Slush hydrogen storage | 9A006 |
Slush hydrogen transfer systems | 9A006 |
Small arms | ML1 |
Small waterplane area vessels | 8A001i. |
Smoke canisters | ML4 |
Smoke grenades | ML4a. |
Smoke projectors or generators | ML2 |
Smooth—bore weapons | ML1 |
PL5018 | |
Sodium (Na) metal vapour lasers | 6A005a.2. |
Sodium bifluoride | 1C350 |
Sodium cyanide | 1C350 |
Sodium fluoride | 1C350 |
Sodium sulphide | 1C350 |
Solar cells | 3A001e.1. |
Solenoids, superconductive | 3A001e.3. |
3A201b. | |
Solid rocket propulsion system components | 9A008 |
9A108 | |
Solid rocket propulsion systems | 9A007 |
9A119 | |
Solid roller bearings | 2A001 |
2A002 | |
Solid state cameras | 6A003b.1. |
Solid state imaging devices | 6A203b.3. |
Solid state joining equipment | 9B004 |
Solid state lasers, non—tunable | 6A005c.2. |
Solid state lasers, tunable | 6A005c.1. |
Solid state storage | 4A003e.2. |
Solid state switches | 3A228 |
Solid—state imaging devices | 6A002 |
Sonar log equipment | 6A001c. |
Sounding rocket test, inspection and production software | 9D101 |
Sounding rockets | 9A104 |
Source code generation software | 4D003b. |
Space launch vehicle test, inspection and production software | 9D101 |
Space launch vehicles | 9A004 |
Space probes | 9A004 |
Space—qualified optical components | 6A004c. |
Space—qualified single—element and focal plane arrays | 6A002a.1. |
Spacecraft | 9A004 |
Spark gaps, triggered | 3A228 |
Special gun—mountings | ML1 |
Speech or image recognition equipment | 4A003a. |
Spin—forming machines | 2B115 |
2B215 | |
Spindle assemblies, machine tools and dimensional inspection | 2B008 |
Spread spectrum code | 5A002e. |
Spread spectrum radio equipment | 5A001b.8. |
Spreading code generation | 5A002e. |
Sprytron tubes | 3A228 |
Sputter deposition production equipment | 2B005 |
SQUIDS, superconductive quantum interference devices | 6A006h.3.a. |
SRAMs | 3A001a.4. |
Staging mechanisms for rockets | 9A117 |
Staphylococcus aureus toxins | 1C351 |
Static random—access memories (SRAMs) | 3A001a.4. |
Statistical multiplex equipment | 5A001b. |
Steam sterilisable freeze drying equipment | 2B352 |
Steel, maraging | 1C116 |
1C216 | |
Steerable parachutes | 9A991 |
Step and repeat equipment for wafer processing | 3B007 |
Stirling cycle engine | 8A002j. |
Storage integrated circuits | 3A001a.4. |
Storage tank components for use with liquid propelling charges | ML2 |
Storage tanks, chemical | 2B350 |
Stored programme controlled digital cross connection equipment | 5A001b. |
Stored programme controlled switching equipment | 5A001c. |
Streak cameras, electronic type | 6A203b.1. |
Streak cameras, mechanical or electronic | 6A003a.3. |
Streak cameras, mechanical type | 6A203a.2. |
Streak tubes, for electronic streak cameras | 6A203b.1. |
Subcavitating hydrofoils | 8A002m. |
Submarine engines | ML9 |
Submarine nets | ML9 |
Submarines, military | ML9 |
Submersible vehicle systems or equipment | 8A002a. |
Submersible vehicles | 8A001 |
Submersible vessels | 8A990 |
Substrates | 3C |
Sulphur dichloride | 1C350 |
Sulphur monochloride | 1C350 |
Super—ventilated propellers | 8A002o. |
Supercavitating hydrofoils | 8A002m. |
Supercavitating propellers | 8A002o. |
Superconducting quantum interference devices (SQUIDS) | 6A006h. |
Superconductive circuits/systems, energy storage | 3A001e.4. |
Superconductive composite conductors | 1C005 |
Superconductive devices or circuits | 3A001d. |
Superconductive electromagnetic sensors | 6A006h. |
Superconductive electromagnets or solenoids | 3A001e.3. |
3A201b. | |
Superconductive equipment, military | ML20 |
Superconductive gates | 3A001d. |
Superconductive propulsion engines | 8A002o. |
Superconductive quantum interference devices (SQUIDS) | 6A006h. |
Superplastic forming technology for metal working | 2E003b. |
Superplastic forming tools, dies, moulds or fixtures | 1B003 |
Supersonic expansion nozzles for UF6 carrier gas | B10b.7. |
Surface acoustic wave devices | 3A001c.1. |
Surface coating equipment for non—electronic substrates | 2B005 |
Surface irregularity measuring equipment | 2B006 |
Surface skimming (shallow bulk) acoustic wave devices | 3A001c.1. |
Surface vessels | 8A001 |
Surface—effect vehicles (fully skirted variety) | 8A001f. |
Surface—effect vehicles (rigid sidewalls) | 8A001g. |
Surface—effect vehicles, fingers | 8A002k. |
Surveillance systems | ML5 |
Survey systems, bathymetric | 6A001a.1.b. |
Swine fever virus (Hog cholera virus) | 1C352 |
Switch fabric technology | 5E001b.5. |
Switches, optical opacity (filters) | 6A004d.3. |
Switching devices, modules or assemblies | 3A228 |
Switching equipment software | 5D001c. |
Synchronous Digital Hierarchy (SDH) technology | 5E001b.4. |
Synchronous Optical Network technology (SONET) | 5E001b.4. |
Syntactic foam for underwater use | 8C001 |
Synthetic aperture radar (SAR) | 6A008d. |
Synthetic diamond material | 6C004g. |
Systolic array computers | 4A004a. |
Tank destroyers | ML2 |
Tanks | ML6 |
Tanks, chemical storage | 2B350 |
Tantalum crucibles | 2A225b. |
Tape—laying machines | 1B001b. |
1B101b. | |
Tapered roller bearings | 2A003 |
Target acquisition systems | ML5 |
Tear gases | ML7 |
Telecommunications equipment | 5A001 |
Telecommunications production equipment | 5B001a. |
Telecommunications test equipment | 5B001 |
Telemetering and telecontrol equipment | 5A101 |
Telescopic sights for firearms | PL5002 |
Tellurium (Te) | 6C002a. |
Terminal interface equipment, for digital computers | 4A003k. |
Terrestrial geophones | 6A001b. |
Teschen disease virus | 1C352 |
Test bench/stand for rockets or rocket motors | 9B117 |
Test chambers, aerosol challenge | 2B352 |
Test receivers, microwave | 3A002f. |
Tetrodotoxin | 1C351 |
Thallium arsenic selenide (Tl3AsSe3 or TAS) | 6C004b.3. |
Thermal imaging equipment | ML15 |
Thermal ionization mass spectrometers (TIMS) | 3A233 |
Thermal sensors using optical fibres | 6A002d.3. |
Thermoplastic liquid crystal copolymers | 1C008 |
Thio—ethers | 1C006 |
Thiodiglycol | 1C350 |
Thionyl chloride | 1C350 |
Thorium metal, alloys, compounds and concentrates | A10 |
Thrust chamber, high pressure | 9A006 |
Thrust tabs | 9A106 |
9A108 | |
Thrust vector control sub—systems | 9A106 |
9A108 | |
Thrust vector control systems | 9A008 |
Thulium—YAG (Tm: YAG) lasers | 6A005c.1. |
Thulium—YSGG (Tm: YSGG) lasers | 6A005c.1. |
Tilt rotor/tilt wing power transfer system technology | 9E003d. |
Tilting spindles | 2B009 |
Time or frequency domain processing and correlation equipment | 6A001a.2.c. |
Titanium alloys | 1C202 |
Titanium alloys or powders | 1C002 |
Titanium aluminides | 1C002 |
Titanium doped sapphire laser host material | 6C005a. |
Titanium—sapphire (Ti: Al203) lasers | 6A005c.1. |
Torpedo nets | ML9 |
Torpedoes | ML4 |
Tow—placement machines | 1B001b. |
Towed acoustic hydrophone arrays | 6A001a.2.b. |
Toxic gas monitoring systems | 2B351 |
Toxicological agents | ML7 |
Toxins | 1C351 |
Tracking radar | 6A008l.1. |
Tracking systems | ML5 |
Tracking systems, precision | 6A108b.1. |
Trailers, ammunition | ML6 |
Training equipment, military | ML14 |
Transducers, for acoustic projectors | 6A100a.1.c. |
Transducers, hydrophone | 6A001a.2.a. |
Transient recorders | 3A202 |
Transistors, microwave | 3A001b.3. |
Translation encoders (transcoders) | 5A001b. |
Transmultiplex equipment | 5A001b. |
Travelling wave tubes | 3A001b.1. |
Tray exchange towers | B40 |
Triethanolamine | 1C350 |
Triethanolamine hydrochloride | 1C350 |
Triethyl phosphite | 1C350 |
Triethylene glycol dinitrate (TEGDN) | 1C115 |
Triggered spark—gaps | 3A228 |
Trimethyl phosphite | 1C350 |
Tritium plant | 1B231 |
Tritium, compounds and mixtures | 1C235 |
Tropospheric scatter communication equipment | 5A990 |
Trusted Computer System Evaluation Criteria (TCSEC) | 5A002f. |
Tunable band—pass filters | 3A001b.5. |
Tunable band—stop filters | 3A001b.5. |
Tunable lasers, solid state | 6A005c.1. |
Tunable optical filters | 6A004d.2. |
Tungsten | 1C226 |
Tungsten alloys | 1C004 |
1C226 | |
Tungsten and alloys | 1C117 |
Tungsten carbide | 1C226 |
Turbocompound engines | 9A101 |
Turboexpanders | B40 |
Turbofan engines | 9A101 |
Turbojet engines | 9A101 |
Turning machines | 2B001 |
Turning machines for optical quality surfaces | 2B002 |
TV cameras, radiation—hardened | 6A203c. |
Two dimensional focal plane arrays | 6A002a. |
UF6 auxiliary equipment | B20 |
UF6 liquefaction stations | B20 |
UF6 product and tails stations | B20 |
UF6 production plant | B30 |
Ultrasonic test equipment for nuclear reactors | B100 |
Underwater cameras | 8A002e. |
Underwater communication cable | 5A001e.3. |
Underwater communications systems | 5A001b.11. |
Underwater detection devices, military | ML9 |
Underwater electronic imaging systems | 8A002f. |
Underwater noise reduction software | 8D002 |
Underwater noise reduction technology | 8E002 |
Underwater optical fibres and accessories | 5A001e.3. |
Underwater swimming apparatus | ML17 |
Underwater vehicles | 8A001 |
Underwater velocity measurement equipment | 6A001c. |
Underwater vessels | ML9 |
Underwater vision systems | 8A002d. |
Unmanned airborne vehicles | ML10 |
Unmanned tethered submersible vehicles | 8A001c. |
Unmanned untethered submersible vehicles | 8A001d. |
Uranium cooling equipment | B10b.6. |
Uranium fluoride (UF5) product filter collectors | B10b.7. |
Uranium metal, alloys, compounds and concentrates | A10 |
Uranium titanium alloys | 1C004 |
Uranium vapour product and tails collector systems | B10b. |
Uranium, enriched | A20 |
Vacuum headers | B20 |
Vacuum induction furnaces | 2B226 |
Vacuum manifolds | B20 |
Vacuum melting and casting furnaces | 2B227 |
Vacuum pumps | B20 |
2B231 | |
Validation and programme proof software | 4D003a. |
Valves, bellows | 2B350 |
Valves, bellows seal | 2A226 |
Valves, diaphragm | 2B350 |
Valves, double—seal | 2B350 |
Valves, for gaseous diffusion isotope separation plant | B10b.1. |
Variola virus | 1C351 |
Vector processors | 4A003 |
Vehicles fitted with mountings for arms | ML6 |
Vehicles modified for military use | ML6 |
Vehicles, military | ML6 |
Velocity interferometers (VISARs) | 6A225 |
Velocity measurement equipment, underwater | 6A001c. |
Venezuelan equine encephalitis virus | 1C351 |
Ventilated propellers | 8A002o. |
Verotoxin | 1C351 |
Vesicular stomatitis virus | 1C352 |
Vessel positioning systems, acoustic | 6A001a.1.d. |
Vessels | 8A001 |
8A990 | |
Vessels, military | ML9 |
Vibration test equipment | 2B116 |
Vibration test equipment software | 2D101 |
9D004a. | |
Vibration test equipment, acoustic | 9B006 |
Vibrio cholerae | 1C351 |
Video cameras incorporating solid state sensors | 6A003b.1. |
Vinylidene fluoride | 1C009 |
Vinylidene fluoride polymers | 1A001 |
Virus protection software | 5D002c.3. |
Viruses | ML7 |
1C351 | |
1C352 | |
Vortex tubes, aerodynamic isotope separation | B10b.3. |
Wafer handling systems | 3B006 |
Wafers, semiconductor with function determined | 3A001a. |
Wafers, with epitaxial layers | 3C001 |
Warships | ML9 |
Water cannon | PL5001 |
Water distillation towers | B40 |
Water jet cutting machines | 2B001 |
Water tunnels | 8B001 |
Water—hydrogen sulphide exchange tray columns | 1B229 |
Water—screw propellers | 8A002o. |
Wave division multiplex equipment | 5A001b.4. |
Waveguides, flexible | 3A001b.7. |
Weapon control systems | ML5 |
Weapon sights | ML5 |
Weapons using caseless ammunition | ML1 |
Weaving machines | 1B001c. |
Western equine encephalitis virus | 1C351 |
Wet—spinning equipment for refractory ceramics | 1B001d. |
1B101d. | |
White pox | 1C351 |
Wide—swath bathymetric survey systems | 6A001a.1. |
Wind tunnel aero—model technology | 9E003b. |
Wind tunnels | 9B105 |
Wind tunnels, control systems for | 9B005 |
Wire type electrical discharge machines | 2B001 |
Work stations, computers | 4A003 |
X—ray resist materials | 3C002 |
X—ray systems, flash discharge | 3A001e.5. |
3A201c. | |
Yellow fever virus | 1C351 |
Zinc selenide (ZnSe), substrate blanks | 6C004a. |
Zinc sulphide (ZnS), substrate blanks | 6C004a. |
Zirconium fluoride (ZrF4) glass | 6C004f. |
Zirconium metal or alloy tubes | B50 |
Zirconium metal, alloys and compounds | 1C234 |
Zoonoses | 1C351 |
See also entry 9A101.
See also entry 9A104.
See also entries 9A105 and 9A119.
See also entry 9A106.
See also entry 9A119.
See also entry 9A108.
See also entries 9A109 and 9A119.
See also entries 1A002 and 9A110.
See also entries 9A111 and 9A118.
See also entry 9A119.
See also entry 9A119.
See also entry 1A002.
See also entries 9A011 and 9A118.
OJ L375, Vol23, 31.12.80, p.46.
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