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Regulation 12(3)
Item | Regulation 53A applies? |
---|---|
1B999 Specific processing equipment as follows: | |
a. Electrolytic cells for fluorine “production”; | |
b. Particle accelerators; | |
c. Industrial process control hardware/systems designed for power industries; | |
d. Freon and chilled water-cooling systems capable of continuous cooling duties of 100,000 BTU/hr (29.3 kW) or greater; | |
e. Equipment for the “production” of structural composites, fibres, prepregs and preforms. | |
1C990 Fibrous and filamentary materials for “use” in “composite” structures and with a specific modulus of 3.18 x 106 m or greater and a specific tensile strength of 7.62 x 104 m or greater. | Yes |
1C992 Commercial charges and devices containing energetic materials, and nitrogen trifluoride in a gaseous state. | Yes |
Note: For the purposes of this entry the mass of the non-controlled substance in any ‘mixture’ is omitted when determining the total mass of the controlled material. | |
These items are as follows: a. Shaped charges specially designed for oil well operations, utilising one charge functioning along a single axis, that upon detonation produce a hole, and a.1. Contain any formulation of controlled materials; a.2. Have only a uniform shaped conical liner with an included angle of 90 degrees or less; a.3. Contain more than 0.010 kg but less than or equal to 0.090 kg of “controlled materials”; and a.4. Have a diameter not exceeding 4.5 inches; | Yes |
b. Shaped charges specially designed for oil well operations containing less than or equal to 0.010 kg of controlled materials; | Yes |
c. Detonation cord or shock tubes containing less than or equal to 0.064 kg per meter (300 grains per foot) of controlled materials; | Yes |
d. Cartridge power devices, that contain less than or equal to 0.70 kg of controlled materials in the deflagration material; | Yes |
e. Oil well cartridges, that contain less than or equal to 0.015 kg of “controlled materials”; | Yes |
f. Commercial prefabricated slurries and emulsions containing less than or equal to 10.0 kg and less than or equal to thirty-five percent by weight of materials controlled by ML8 in Schedule 2 of the Export Control Order 2008; | Yes |
g. Cutters and severing tools containing less than or equal to 3.5 kg of controlled materials; | Yes |
h. Pyrotechnic devices when designed exclusively for commercial purposes (e.g., theatrical stages, motion picture special effects, and fireworks displays) and containing less than or equal to 3.0 kg of controlled materials; | Yes |
i. Other commercial explosive devices and charges not controlled by 1C992.a to.h. containing less than or equal to 1.0 kg of controlled materials. Note: 1C992.i includes automotive safety devices; extinguishing systems; cartridges for riveting guns; explosive charges for agricultural, oil and gas operations, sporting goods, commercial mining, or public works purposes; and delay tubes used in the assembly of commercial explosive devices. | Yes |
j. Nitrogen trifluoride (NF3) in a gaseous state - Nitrogen trifluoride (CAS RN 7783-54-2) | |
1C996 Hydraulic fluids containing synthetic hydrocarbon oils, having all the following characteristics: | Yes |
a. A flash point exceeding 477 K (204 degrees C); b. A pour point at 239 K ( -34 degrees C) or less; c. A viscosity index of 75 or more; and d. A thermal stability at 616 K (343 degrees C). | |
1C997 Ammonium nitrate, including fertilisers and fertiliser blends containing more than 15% by weight ammonium nitrate, except liquid fertilisers (containing any amount of ammonium nitrate) or dry fertilisers containing less than 15% by weight ammonium nitrate | |
1C998 Non fluorinated polymeric substances as follows: a. Polyarylene ether ketones, as follows: a.1 Polyether ether ketone (PEEK); a.2. Polyether ketone ketone (PEKK); a.3. Polyether ketone (PEK); a.4. Polyether ketone ether ketone ketone (PEKEKK); | Yes |
1C999 Specific materials, as follows: | |
a. Hardened steel and tungsten carbide precision ball bearings (3mm or greater diameter); | Yes |
b. 304 and 316 stainless steel plate; | |
c. Monel plate; | |
d. Tributyl phosphate; | |
e. Nitric acid in concentrations of 20 weight percent or greater; | |
f. Fluorine; | |
g. Alpha emitting radionuclides, | |
1D999 Specific software as follows: | |
a. “Software” specially designed for industrial process control hardware/systems controlled by 1B999; b. “Software” specially designed for equipment for the “production” of structural composites, fibres, prepregs and preforms controlled by 1B999. | |
1E994 “Technology” for the “development”, “production”, or “use” of fibrous and filamentary materials controlled by 1C990. | Yes |
Item | Regulation 53A applies? |
---|---|
2A983 Explosives or detonator detection equipment, both bulk and trace based, consisting of an automated device, or combination of devices for automated decision making to detect the presence of different types of explosives, explosive residue, or detonators as follows and specifically designed components thereof: Note: For the purpose of this entry, automated decision making is the ability of the equipment to detect explosives or detonators at the design or operator-selected level of sensitivity and provide an automated alarm when explosives or detonators at or above the sensitivity level are detected. This entry does not control equipment that depends on operator interpretation of indicators such as inorganic/organic colour mapping of the items(s) being scanned. Note: Explosives or detonation detection equipment in 2A983 includes equipment for screening people, documents, baggage, other personal effects, cargo and/or mail. | |
a. Explosives detection equipment for automated decision making to detect and identify bulk explosives utilising, but not limited to, x-ray (e.g., computed tomography, dual energy, or coherent scattering), nuclear (e.g. thermal neutron analysis, pulse fast neutron analysis, pulse fast neutron transmission spectroscopy, and gamma resonance absorption), or electromagnetic techniques (e.g. quadropole resonance and dielectrometry). | Yes |
b. Detonator detection equipment for automated decision making to detect and identify initiation devices (e.g. detonators, blasting caps) utilising, but not limited to, x-ray (e.g. dual energy or computed tomography) or electromagnetic techniques. | Yes |
2A984 Concealed object detection equipment operating in the frequency range from 30 GHz to 3000 GHz and having a spatial resolution of 0.1 milliradian up to and including 1 milliradian at a standoff distance of 100 metres; and specially designed components thereof. Note: Concealed object detection equipment includes but is not limited to equipment for screening people, documents, baggage, other personal effects, cargo and mail. Technical Note: The range of frequencies span what is generally considered as the millimetre-wave, submillimetre-wave and terahertz frequency regions. | Yes |
2A991 Bearings and bearing systems as follows: | |
This entry does not control balls with tolerance specified by the manufacturer in accordance with ISO 3290 as grade 5 or worse. Note (1) (a) DN is the product of the bearing bore diameter in mm and the bearing rotational velocity in rpm. (b) Operating temperatures include those temperatures obtained when a gas turbine engine has stopped after operation. (2) Annular Bearing Engineers Committee (ABEC); American National Standards Institute (ANSI); Anti-Friction Bearing Manufacturers Association (AFBMA). | |
a. Ball bearings or solid ball bearings, having tolerances specified by the manufacturer in accordance with ABEC 7, ABEC 7P, or ABEC 7T or ISO Standard Class 4 or better (or equivalents) and having any of the following characteristics. | Yes |
a.1. Manufactured for “use” at operating temperatures above 573 K (300 degrees C) either by using special materials or by special heat treatment; or | |
a.2. With lubricating elements or component modifications that, according to the manufacturer’s specifications, are specially designed to enable the bearings to operate at speeds exceeding 2.3 million DN. | |
b. Solid tapered roller bearings, having tolerances specified by the manufacturer in accordance with ANSI/AFBMA Class 00 (inch) or Class A (metric) or better (or equivalents) and having any of the following characteristics. | |
b.1. With lubricating elements or component modifications that, according to the manufacturer’s specifications, are specially designed to enable the bearings to operate at speeds exceeding 2.3 million DN; or b.2. Manufactured for “use” at operating temperatures below 219 K (54 degrees C) or above 423 K (150 degrees C). | |
c. Gas-lubricated foil bearing manufactured for “use” at operating temperatures of 561 K (288 °C) or higher and a unit load capacity exceeding 1 MPa. | |
d. Active magnetic bearing systems. | Yes |
e. Fabric-lined self-aligning or fabric-lined journal sliding bearings manufactured for “use” at operating temperatures below 219 K(-54 degrees C) or above 423 K (150 degrees C). | |
2A992 Piping, fittings and valves made of, or lined with stainless, copper-nickel alloy or other alloy steel containing 10% or more nickel and/or chromium as follows: | |
a. Pressure tube, pipe, and fittings of 200 mm (8 in.) or more inside diameter, and suitable for operation at pressures of 3.4 MPa (500 psi) or greater; | |
b. Pipe valves having all of the following characteristics that are not controlled by 2B350.g of Annex I of the Dual-Use Regulation; b.1. A pipe size connection of 200 mm (8 in.) or more inside diameter; and b.2. Rated at 10.3 MPa (1,500 psi) or more. | |
2A993 Pumps designed to move molten metals by electromagnetic forces. | |
2A994 Portable electric generators, weighing 2300 kg or less on wheels or transportable in a 2½ ton truck without a special set up requirement and specially designed components thereof. | |
2A999 Specific processing equipment as follows: | |
a. Bellows sealed valves; | |
TECHNICAL NOTES FOR 2B991 TO 2B999: | |
1. Secondary parallel contouring axes, (e.g., the w-axis on horizontal boring mills or a secondary rotary axis the centre line of which is parallel to the primary rotary axis) are not counted in the total number of contouring axes. Rotary axes need not rotate over 360°. A rotary axis can be driven by a linear device (e.g., a screw or a rack-and-pinion). | |
2. The number of axes which can be coordinated simultaneously for “contouring control” is the number of axes along or around which, during processing of the workpiece, simultaneous and interrelated motions are performed between the workpiece and a tool. This does not include any additional axes along or around which other relative motions within the machine are performed, such as: | |
2.a. Wheel-dressing systems in grinding machines; | Yes |
2.b. Parallel rotary axes designed for mounting of separate workpieces; | |
2.c. Co-linear rotary axes designed for manipulating the same workpiece by holding it in a chuck from different ends. | |
3. Axis nomenclature shall be in accordance with International Standard ISO 841:2001, Industrial automation systems and integration - Numerical control of machines - Coordinate system and motion nomenclature. | Yes |
4. A “tilting spindle” is counted as a rotary axis. | Yes |
5. ‘Stated “unidirectional positioning repeatability”’ may be used for each specific machine model as an alternative to individual machine tests, and is determined as follows: | Yes |
5.a. Select five machines of a model to be evaluated; | Yes |
5.b. Measure the linear axis repeatability (R↑,R↓) according to ISO 230-2:2014 and evaluate “unidirectional positioning repeatability” for each axis of each of the five machines; | Yes |
5.c. Determine the arithmetic mean value of the “unidirectional positioning repeatability”-values for each axis of all five machines together. These arithmetic mean values “unidirectional positioning repeatability” ( ) become the stated value of each axis for the model...)( x, y, …); | Yes |
5.d. Since the Category 2 list refers to each linear axis there will be as many ‘stated “unidirectional positioning repeatability”’ values as there are linear axes; | Yes |
5.e. If any axis of a machine model not controlled by 2B001.a. to 2B001.c. has a ‘stated “unidirectional positioning repeatability”’ equal to or less than the specified “unidirectional positioning repeatability” of each machine tool model plus 0.7 µm, the builder should be required to reaffirm the accuracy level once every eighteen months. | Yes |
6. For the purpose of 2B, measurement uncertainty for the “unidirectional positioning repeatability” of machine tools, as defined in the International Standard ISO 230-2:2014, shall not be considered. | Yes |
7. For the purpose of 2B, the measurement of axes shall be made according to test procedures in 5.3.2. of ISO 230-2:2014. Tests for axes longer than 2 meters shall be made over 2 m segments. Axes longer than 4 m require multiple tests (e.g., two tests for axes longer than 4 m and up to 8 m, three tests for axes longer than 8 m and up to 12 m), each over 2 m segments and distributed in equal intervals over the axis length. Test segments are equally spaced along the full axis length, with any excess length equally divided at the beginning, in between, and at the end of the test segments. The smallest “unidirectional positioning repeatability”-value of all test segments is to be reported. | Yes |
2B991 Numerical control units for machine tools and “numerically controlled” machine tools as follows: | |
a. Numerical control units for machine tools: | |
a.1. Having four interpolating axes that can be coordinated simultaneously for “contouring control”; or | |
a.2. Having two or more axes that can be coordinated simultaneously for contouring control and a minimum programmable increment better (less) than 0.001 mm; | |
a.3. “Numerical control” units for machine tools having two, three or four interpolating axes that can be coordinated simultaneously for contouring control and capable of receiving directly (online) and processing computer aided design (CAD) data for internal preparation of machine instructions; or | |
b. Motion control boards specially designed for machine tools and having any of the following characteristics: | |
b.1. Interpolation in more than four axes; | |
b.2. Capable of “real-time processing” of data to modify tool path, feed rate and spindle data, during the machining operation, by any of the following: | |
b.2.a. Automatic calculation and modification of part programme data for machining in two or more axes by means of measuring cycles and access to source data; or | |
b.2.b. “Adaptive control” with more than one physical variable measured and processed by means of a computing model (strategy) to change one or more machining instructions to optimise the process. | |
b.3. Capable of receiving and processing CAD data for internal preparation of machine instructions; or | |
c. “Numerically controlled” machine tools that, according to the manufacturer’s technical specifications, can be equipped with electronic devices for simultaneous “contouring control” in two or more axes and that have both of the following characteristics: | |
c.1. Two or more axes that can be coordinated simultaneously for contouring control; and | |
c.2. Positioning accuracies according to ISO 230/2 (2006), with all compensations available: | |
c.2.a. Better than 15 mm along any linear axis (overall positioning) for grinding machines; | |
c.2.b. Better than 15 mm along any linear axis (overall positioning) for milling machines; or | |
c.2.c. Better than 15 mm along any linear axis (overall positioning) for turning machines; or | |
d. Machine tools, as follows, for removing or cutting metals, ceramics or composites, that, according to the manufacturer’s technical specifications, can be equipped with electronic devices for simultaneous “contouring control” in two or more axes: | |
d.1. Machine tools for turning, grinding, milling or any combination thereof, having two or more axes that can be coordinated simultaneously for “contouring control” and having any of the following characteristics: | |
d.1.a. One or more contouring tilting spindles; Note: 2B991.d.1.a. applies to machine tools for grinding or milling only. | |
d.1.b. Camming (axial displacement) in one revolution of the spindle less (better) than 0.0006 mm total indicator reading (TIR); Note: 2B991.d.1.b. applies to machine tools for turning only. | |
d.1.c. Run out (out of true running) in one revolution of the spindle less (better) than 0.0006 mm total indicator reading (TIR); | |
d.1.d. The positioning accuracies with all compensations available, are less (better) than: 0.001° on any rotary axis; | |
d.2. Electrical discharge machines (EDM) of the wire feed type that have five or more axes that can be coordinated simultaneously for “contouring control”. | Yes |
2B992 Non “numerically controlled” machine tools for generating optical quality surfaces as follows and specially designed components therefor. | |
a. Turning machines using a single point cutting tool and having all of the following characteristics: | |
a.1. Slide positioning accuracy less (better) than 0.0005 mm per 300 mm of travel; | |
a.2. Bidirectional slide positioning repeatability less (better) than 0.00025 mm per 300 mm of travel; | |
a.3. Spindle “run out” and “camming” less (better) than 0.0004 mm total indicator reading (TIR); | |
a.4. Angular deviation of the slide movement (yaw, pitch and roll) less (better) than 2 seconds of arc, TIR, over full travel; and | |
a.5. Slide perpendicularity less (better) than 0.001 mm per 300 mm of travel; Technical Note: The bidirectional slide positioning repeatability (R) of an axis is the maximum value of the repeatability of positioning at any position along or around the axis determined using the procedure and under the conditions specified in Part 2.11 of ISO 230/2: 1988. | |
b. Fly cutting machines having all of the following characteristics: | |
b.1. Spindle “run out” and “camming” less (better) than 0.0004 mm TIR; and | |
b.2. Angular deviation of slide movement (yaw, pitch and roll) less (better) than 2 seconds of arc, TIR, over full travel. | |
2B993 Gearmaking and/or finishing machinery capable of producing gears to a quality level of better than AGMA 11. | Yes |
2B996 Dimensional inspection or measuring systems or equipment as follows. a. Manual dimensional inspection machines, having both of the following characteristics: a.1. Two or more axes; and a.2. A measurement uncertainty equal to or less (better) than (3 + L/300) micrometre in any axes (L measured length in mm). | |
2B997 “Robots” that are capable of employing feedback information in real-time processing from one or more sensors to generate or modify “programs” or to generate or modify numerical program data. | |
2B998 Assemblies, circuit boards or inserts as follows specially designed for machine tools controlled by 2B991, or for equipment controlled by 2B993, 2B996 or 2B997. | Yes |
a. Spindle assemblies, consisting of spindles and bearings as a minimal assembly, with radial (“run out”) or axial (“camming”) axis motion in one revolution of the spindle less (better) than 0.0006 mm total indicator reading (TIR); | |
b. Single point diamond cutting tool inserts, having all of the following characteristics: b.1. Flawless and chip free cutting edge when magnified 400 times in any direction; b.2. Cutting radius from 0.1 to 5 mm inclusive; and b.3. Cutting radius out of roundness less (better) than 0.002 mm TIR. | |
c. Specially designed printed circuit boards with mounted parts or components capable of upgrading, according to the manufacturer’s specifications, “numerical control” units, machine tools or feed-back devices to or above the levels specified in 2B991, 2B993, 2B996, 2B997, or 2B998. | Yes |
2B999 Specific processing equipment, as follows: | |
a. Isostatic presses; | |
b. Bellows manufacturing equipment, including hydraulic forming equipment and bellows forming dies; | |
c. Laser welding machines; | |
d. MIG welders; | |
e. E-beam welders; | |
f. Monel equipment, including valves, piping, tanks and vessels; | |
g. 304 and 316 stainless steel valves, piping, tanks and vessels; Note: Fittings are considered part of “piping” for purposes of 2B999.g. | |
h. Mining and drilling equipment, as follows: | |
h.1. Large boring equipment capable of drilling holes greater than 60cm in diameter; | |
h.2. Large earth-moving equipment used in the mining industry; | |
i. Electroplating equipment designed for coating parts with nickel or aluminium; | |
j. Pumps designed for industrial service and for “use” with an electrical motor of 5 HP or greater; | |
k. Vacuum valves, piping, flanges, gaskets and related equipment specially designed for use in high-vacuum service; | |
l. Spin forming and flow forming machines; | |
m. Centrifugal multiplane balancing machines; | |
n. Austenitic stainless-steel plate, valves, piping, tanks and vessels. | |
2D983 “Software” specially designed or modified for the “development”, “production” or “use” of equipment controlled by 2A983. | |
2D984 “Software” required for the “development”, “production” or “use” of concealed object detection equipment controlled by 2A984. | Yes |
2D991 “Software” specially designed for the “development”, “production” or “use” of equipment controlled by 2B991, 2B993, or 2B996, 2B997, and 2B998. | Yes |
2D992 Specific “software”, as follows (see List of Items Controlled). | |
a.1. For flexible manufacturing units (FMUs) which consist at least of | |
(1) A machine tool described in 2B001.c. of Annex I of the Dual-Use Regulation; and | |
(2) A dimensional inspection machine described in Category 2 of Annex I of the Dual-Use Regulation, or another digitally controlled measuring machine controlled by an entry in Category 2 of Annex I of the Dual-Use Regulation; and | Yes |
a.2. Capable of generating or modifying, in “real-time processing”, programs or data by using the signals obtained simultaneously by means of at least two detection techniques, such as: | Yes |
a.2.a. Machine vision (optical ranging); | Yes |
a.2.b. Infrared imaging; | Yes |
a.2.c. Acoustical imaging (acoustical ranging); | Yes |
a.2.d. Tactile measurement; | Yes |
a.2.e. Inertial positioning; | Yes |
a.2.f. Force measurement; and | Yes |
a.2.g. Torque measurement. | Yes |
Note: 2D992.a. does not control “software” which only provides rescheduling of functionally identical equipment within “flexible manufacturing units” using prestored part programs and a prestored strategy for the distribution of the part programs. | |
2D993 “Software” specially designed or modified for the “development”, “production” or “use” of items controlled by 2A992 or 2A993. | |
2D994 “Software” specially designed for the “development” or “production” of portable electric generators controlled by 2A994. | |
2E984 “Technology” required for the “development”, “production” or “use” of equipment controlled by 2A984 or required for the “development” of “software” controlled by 2D984. | Yes |
2E991 “Technology” for the use of equipment controlled by 2B991, 2B993, 2B996, or 2B997. | |
2E993 “Technology” according to the General Technology Note of Annex I of the Dual-Use Regulation for the “use” of equipment controlled by 2A992 or 2A993. | |
2E994 “Technology” for the “use” of portable electric generators controlled by 2A994.” |
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