Decree No. 376 / 2016 Coll.
Ordinance on dual-use items in the nuclear field
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Order
Effective from 01.01.2017
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01.01.2017
18.11.2016
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376
DECLARATION
of 7 November 2016
on dual-use items in the nuclear field
According to Section 236 of Act No. 263 / 2016 Coll., Atomic Act, for the implementation of Sections 18 (5), 24 (7), 25 (2) (d), 166 (6) (d), 170 (4) and 171 (5):
Details of the declaration of end-use of the dual-use item in the nuclear field
The declaration of end-use of the dual-use item in the nuclear field in the case of its transfer shall include:
(a) the quantity, name and specification of the dual-use item in the nuclear area under this Decree;
(b) an indication of the method of end-use;
(c) the date of the transfer;
(d) details of the notifier, namely:
1. the name and, where applicable, the names and surnames if they are natural persons; or
2. name, if it is a legal person,
(e) the address of the end-user's registered office, permanent residence or residence;
(f) end-user obligation
1. not to use the dual-use item in or part of the nuclear area for any purpose contrary to the Nuclear Non-Proliferation Treaty;
2. ensure that the dual-use item in the nuclear area or part thereof is not misused for military purposes; and
3. ensure notification of further transfer of the dual-use item in the nuclear field or part thereof within the Czech Republic of the Office; and
(g) the estimated date of notification of information on the transfer of the dual-use item in the Office's nuclear area, determined to be made within 30 working days of the transfer.
Requirements for the content of the authorised activity documentation, which is the import or export of a nuclear item which is a dual use item in the nuclear field
The content of the end-user's or recipient state declaration for the export of dual-use items in the nuclear field shall be:
(a) a communication that the dual-use item in the nuclear area will not be used for the purposes referred to in Article 4 (1) of Council Regulation (EC) No 428 / 2009 of 5 May 2009 establishing a Community regime for the control of exports, transport, brokering and transit of dual-use items or for military end-use in countries subject to Article 4 (2) of this Regulation; and
(b) the specification of the method of use and the end-use point of the dual-use item in the nuclear field, which shall be in conformity with the data specified in the application for authorisation.
Scope and manner of storage of registered data on dual-use items in the nuclear field and deadlines for their transmission to the Authority
(1) In the case of exports or imports of dual-use items in the nuclear field, data shall be recorded to the following extent:
(a) the quantity, name and specification of the dual-use item in the nuclear field under this decree;
(b) the name and address of the supplier's and end-user's registered office of the dual-use item in the nuclear field, if they are legal persons, or their name and, where appropriate, their names, and the surname and address of the permanent residence or residence, if they are natural persons;
(c) a proposal for the conclusion of a contract and other commercial documents relating to the export or import of dual-use items in the nuclear field;
(d) the date of import or export of the dual-use item in the nuclear field;
(e) the date on which the imported or exported dual-use item in the nuclear area entered or left the territory of the Czech Republic;
(f) an indication of when the dual-use item in the nuclear field has been transmitted to the end user; and
(g) the end-user's written confirmation of taking over the dual-use item in the nuclear field.
(2) The holder of the authorisation to export or import a dual-use item in the nuclear field shall notify the Office of the registered data referred to in paragraph 1.
(a) points (a) to (f) within 5 working days of completion of the export or import; and
(b) point (g) within 30 working days of the date of transmission of the dual-use item in the nuclear area to the end-user.
List of dual-use items in the nuclear field
The list of dual-use items in the nuclear area is set out in Annex 1 to this Decree.
Model end-user statement
The model of the end-user declaration of the dual-use item in the nuclear field on its import is set out in Annex 2 to this Decision.
Notification
This Decree was notified in accordance with Directive (EU) 2015 / 1535 of the European Parliament and of the Council of 9 September 2015 laying down a procedure for the provision of information in the field of technical and information society services.
Efficacy
This Decision shall enter into force on 1 January 2017.
President:
Ing. Drábová, Ph.D., v. r.
Příloha č. 1
Annex No 1 to Decree No 376 / 2016 Coll.
LIST OF EQUIPMENT, MATERIALS, SOFTWARE AND RELATED TECHNOLOGY OF DOUBLE USE IN THE NUCLEAR AREA SUBJECT TO CONTROL SCHEME FOR IMPORTS, EXPORT AND TRANSFER
1. INDUSTRIAL EQUIPMENT
1.A. Equipment, files and components
1.A.1. Radiation shielding windows with high specific weight
Radiation shielding windows of high specific weight, lead-lined glass or other, having the following characteristics, and specially designed frames therefor:
(a) an area on the cold side which is the shielding side of the window exposed to the lowest radiation according to the design design, exceeding 0,09 m2;
(b) weighing more than 3 g / cm3, and
(c) with a thickness of not less than 100 mm.
1.A.2. Radio-resistant television cameras or lenses thereof
Radiation-resistant television cameras or lenses therefor specially designed or recognised as radiation-resistant, capable of resisting a cumulative dose of radiation exceeding 5 × 104 Gy (silicon) without degradation of their properties during operation.
The unit Gy (silicon) is energy in joules per kilogram absorbed by an unshielded silicon sample exposed to ionizing radiation.
1.A.3. Robots, end controls and control units
1.A.3.a. Robots and end-controls having any of the following:
1.A.3.a.1. are specially designed to meet the national safety standard for the handling of brisant explosives; or
1.A.3.a.2. are specially designed or calculated as radiation resistant to withstand a cumulative dose of radiation greater than 5 × 104 Gy (silicon) and not subject to operational degradation.
The unit Gy (silicon) is energy in joules per kilogram absorbed by an unshielded silicon sample exposed to ionizing radiation.
1.A.3.b. Control units specially designed for any robot or end control specified in 1.A.3.a.;
b.
A robot is a manipulation mechanism that can move along a linear path or from point to point, can use sensors and has the following characteristics:
(a) is multipurpose;
(b) be able to place or orient materials, components, tools or special equipment by means of various movements in three dimensions;
(c) contains three or more servo-control systems with closed or open control circuits, or with step engines; and
(d) has programmability accessible to the user by means of a learning or repetition method or by means of an electronic computer which may be controlled by programmable logic without mechanical interference.
The sensors are physical phenomenon detectors whose output, after conversion to a signal that can be interpreted by the controller, is able to generate programs or modify programmed instructions or numerical program data. Includes machine-seeing, infrared imaging, acoustic imaging, touch, inertial position sensors, optical or acoustic distance or torque meters.
The programmability of an accessible user is a property enabling the user to insert, modify or replace programs by means other than physical change of cabling or interconnections or by setting control functions including input parameters.
Robot within the meaning of item 1.A.3. are not:
(a) manipulation mechanisms which are manageable only manually or remotely;
(b) fixed sequence manipulation mechanisms which are automated devices performing mechanically programmed motions. The program is mechanically limited by fixed stops, such as pins or cams. Motion sequences, selection of trajectory or angles are not variables or variable mechanically, electronically or electrically;
(c) mechanically operated variable sequence manipulation mechanisms which are automated moving devices operating according to mechanically fixed programmed motions. The program is mechanically limited by fixed but adjustable stops, such as pins or cams. The sequence of movements and selection of trajectory or angles is variable within a fixed program pattern. Modifications or modifications of the programme design, in particular changes in pins or in the replacement of cams, in one or more axes of movement can only be made by mechanical operations,
(d) manipulation mechanisms with variable sequence without control servo-engines which are automated moving devices operating according to mechanically fixed programmed motions. The programme may be changed, but a certain sequence is only performed on the basis of a binary signal from mechanically fixed electrical binary devices or adjustable stops; and
(e) lifting cranes which are handling systems in Cartesian coordinates, manufactured as an integral part of a vertical set of storage tanks and designed to make the contents of such storage or removal available.
The end controls are jaws, active tool units or any other tools that are attached to the base plate at the end of the robot's handling arm.
Active tool units are devices using momentum, process energy or the perception of a machined object.
1.A.4. Remote manipulators
Remote manipulators which can be used for operation in radiochemical separation operations or in hot cells having any of the following:
1.A.4.a. manipulators capable of penetrating a wall of a hot chamber (through a wall operation) of 0,6 m or more; or
1.A.4.b. manipulators capable of bridging the top of a wall thickness of 0,6 m or more (over-wall operations).
1.B. Testing and production equipment
1.B.1. Machine tools for working metal
1.B.1.a. Shaping machines having the following characteristics:
1) three or more active or guidance cylinders; and
(2) according to the manufacturer's technical specification may be equipped with digital control units or controlled by a computer.
1.B.1.b. Rotary forming machines designed for continuous forming of cylindrical cylinders with an internal diameter of 75 mm to 400 mm.
b.
1.B.2. Machine tools
Machine tools or combinations thereof for the following uses: machining or cutting metals, ceramic or composite materials which, according to the manufacturer's technical specifications, may be equipped with electronic control machining (copying) equipment in two or more axes simultaneously.
b. The machines can also drill or milling turned parts with a diameter of less than 42 mm.
1.B.2.a. Lathes having setting accuracy with all achievable compensations better (less) than 6 µm in accordance with the International Standard ISO 230 / 2 (1988) Test principles for machine tools (hereinafter "ISO 230 / 2 (1988) ') along any linear axis (total setting) for machines capable of machining a diameter greater than 35 mm.
1.B.2.b. Machine tools for milling, having any of the following characteristics:
1.B.2.b.1. setting accuracy with all available compensation is better (less) than 6 µm in accordance with ISO 230 / 2 (1988) along each linear axis (total setting),
1.B.2.b.2. two or more controlled rotary axes; or
1.B.2.b.3. five or more axes which can be coordinated simultaneously for controlled machining (copying).
b.
1.B.2.c. Machine tools for grinding, having any of the following characteristics:
1.B.2.c.1. setting accuracy with all available compensation is better (less) than 4 µm in accordance with ISO 230 / 2 (1988) along any linear axis (total setting),
1.B.2.c.2. two or more controlled rotary axes; or
1.B.2.c.3. five or more axes which can be coordinated simultaneously for controlled machining (copying).
b. The accuracy of the settings is in accordance with ISO 230 / 2 (1988).
1.B.2.d. Electrical Discharge Machines having two or more degrees of freedom which can be coordinated simultaneously for controlled machining (copying). Instead of individual test protocols, the specified setting accuracy determined according to the following ISO 230 / 2 (1988) measurement procedures or national equivalent for each machine tool model may be used, provided that this is specified or accepted by the national authorities. The specified setting accuracy is as follows:
(a) the choice of five model machines to be evaluated;
(b) measurement of linear axis accuracy according to ISO 230 / 2 (1988);
(c) determination of the accuracy value (A) for each axis of each machine according to ISO 230 / 2 (1988);
(d) the determination of the average accuracy value for each axis. This average value becomes the specified setting accuracy for each axis of the Ax, Ay and other model,
(e) since item 1.B.2. refers to each linear axis, there will be as many specified setting accuracy as the linear axes are; and
(f) if any axis of a machine tool not falling within 1.B.2.a., 1.B.2.b. or 1.B.2.c. has a specified setting accuracy of 6 µm or better (less) for grinding machines and 8 µm or better (less) for milling machines and lathes, both in accordance with ISO 230 / 2 (1988), then the machine maker confirms the setting accuracy level every 18 months.
b.
The axis naming is in line with the international standard ISO 841 Industrial Automation and Integration Systems - Numerical Machine Control - Coordinate System and Motion Terminology (ISO 841).
The total number of controlled (copying) axes shall not include axes which are secondary parallel rotary axes, in particular the w-axis for horizontal carusels or secondary rotary axes whose central line is parallel to the primary rotary axis.
The rotary axes need not be rotated by 360 °. The rotary axis can be driven by linear drive, for example by screw or ridge gearing.
For the purposes of 1.B.2., the number of axes that can be coordinated simultaneously for controlled machining, the number of axes along or around which parallel and continuous movements between the workpiece and the tool are made during machining. This does not include any other axes along or around which additional relative movements are carried out within the machine, in particular grinding disc systems for grinding machines, parallel rotary axes designed to mount separate workpieces, or collinear rotary axes designed to handle the same workpiece by holding it at opposite ends in the clamping device.
Machine tools having at least two of the three machining, milling or grinding capabilities, such as a machine tool that can milling, shall be evaluated according to each of the relevant items 1.B.2.a., 1.B.2.b. and 1.B.2.c. of 1.B.2.b.3. and 1.B.2.c.3. include machines based on parallel linear kinematic design, for example hexapos, having five or more axes, none of which are rotary axes.
1.B.3. Machinery, equipment or systems for measuring dimensions
1.B.3.a. Computer or digital dimensional measuring machines having one of the following characteristics:
1.B.3.a.1. have only two axes and the highest permissible error ("MPE ') when measuring length along any axis (one-dimensional) defined as any combination of E0x MPE, E0y MPE or E0z MPE equal to or less (better) than (1,25 + L / 1000) µm, where L is the measured length in mm at any point within the measuring range of the machine within the axis length, according to ISO 10360-2 (2009) Geometric requirements for products (" ISO 10360-2'); or
1.B.3.a.2. have three or more axes and the highest three-dimensional (volume) length measurement error (E0, MPE is equal to or less than 1,7 + L / 800) µm, where L is the measured length in mm at any point within the machine's measuring range within the axis length, according to ISO 10360-2.
The value E0, MPE of the most accurate configuration by computer or numerically controlled dimensional measuring machine specified by the manufacturer according to ISO 10360-2, for example the most accurate of the following: probe, needle length, motion parameters, environment, and all available compensations shall be compared to the 1,7 + L / 800 µm threshold.
1.B.3.b. The following displacement measuring instruments:
1.B.3.b.1. non-contact measuring systems with a resolution equal to or better (less) than 0,2 µm in the measuring range up to 0,2 mm;
1.B.3.b.2. systems with a linear variable differential transformer having the following characteristics:
(a) linearity equal to or less (better) than 0,1% of the value measured from 0 to the full measurement range, for a linear variable differential transformer in the measuring range up to 5 mm or a linearity equal to or less (better) than 0,1% of the value measured from 0 mm to 5 mm for a linear variable differential transformer with a measuring range exceeding 5 mm; and
(b) the variation (drift) is equal to or better (less) than 0,1% per day at a standard ambient air temperature of ± 1 K;
1.B.3.b.3. measurement systems having the following characteristics:
(a) contain a laser; and
(b) maintain a standard temperature and a standard pressure at ± 1 K for at least 12 hours:
1) resolution over the whole measuring range of 0,1 µm or better; and
2) inaccuracy of measurements equal to or better (less) than (0,2 + L / 2000) µm where L is the measured length in mm.
b.
In 1.B.3.b., linear displacement indicates the change of distance between the measuring sensor and the measured object.
1.B.3.c. Angular measuring instruments having an angular position deviation equal to or better (less) than 0,00025 °.
b.
1.B.3.d. Systems for simultaneous linear-angular checks of hemispheres having the following characteristics:
1) the inaccuracy of measurements along any linear axis is equal to or better (less) than 3,5 µm per 5 mm; and
(2) the angular deviation of the position is equal to or less than 0,02 °.
b. Machines in 1.B.3. are controlled if they exceed control limits within any interval of their operating range.
All parameters of measured values in 1.B.3. are plus / minus values, not total range.
1.B.4. Induction furnaces, vacuum or inert gas, with controlled atmosphere and their current sources
1.B.4.a. Induction furnaces having the following characteristics:
1.B.4.a.1. capable of operation above 1,123 K, which is 850 ° C;
1.B.4.a.2. have induction coils of a diameter of not more than 600 mm; and
1.B.4.a.3. are designed for wattage of 5 kW or more.
b.
1.B.4.b. Current sources having a rated power of 5 kW or more specially designed for induction furnaces specified in 1.B.4.a.;
1.B.5. Isostatic presses and related equipment
1.B.5.a. Isostatic presses having the following characteristics:
(1) capable of achieving a maximum working pressure of 69 MPa and above; and
2) have a chamber with an inner diameter exceeding 152 mm.
1.B.5.b. Pressing tools and moulds specially designed for isostatic presses specified in 1.B.5.a.;
In 1.B.5. an isostatic press means a device capable of generating pressure in a closed space by means of various media, such as gas, liquid or solid particles, so that the same pressure is applied to the workpiece or material in all directions.
In 1.B.5. the internal dimensions of the chamber are the space in which the working temperature and pressure are achieved simultaneously, without including clamping preparations. This dimension is a smaller dimension from the internal diameter of the pressure chamber or the internal diameter of the insulated chamber of the furnace, whichever of these two chambers is located inside the other.
1.B.6. Vibrations testing systems, equipment and components
1.B6.a. Electrodynamic vibration test systems having the following characteristics:
1) use a feedback or closed circuit and include a digital controller;
2) are capable of developing vibration of 20 Hz to 2,000 Hz at an effective acceleration of 10 g or more; and
3) are capable of transferring forces of at least 50 kN measured on the bare table.
1.B6.b. c.
1.B6.c. b.
1.B6.d. Capable of producing an effective combined force of at least 50 kN, usable in the systems specified in 1.B6.a., for test pieces and electronic units designed to merge a series of shielding units into a complete shielding system.
In 1.B.6. a bare table means a flat table or surface with no handles or fittings.
1.B.7. Vacuum or other controlled atmosphere melting and casting furnaces and equipment
1.B.7.a. Arc melting and casting furnaces having the following characteristics:
(1) the volume of melting electrodes between 1000 cm3 and 20,000 cm3; and
2) Capability of operation at melting temperatures above 1,973 K, which is 1,700 ° C.
1.B.7.b. Electron beam or plasma kiln melting furnaces having the following characteristics:
(1) 50 kW or more; and
2) Capability of operation at melting temperatures above 1,473 K, which is 1,200 ° C.
1.B.7.c Computer control and monitoring systems specially designed for furnaces specified in 1.B.7.a. or 1.B.7.b.;
1.C. Materials
None.
1.D. Software
1.D.1. Software specially designed or modified for the use of equipment specified in 1.A.3., 1.B.1., 1.B.3., 1.B.5., 1.B6.a., 1.B6.b., 1.B6.d. or 1.B.7.
Software specially designed or modified for systems specified in 1.B.3.d. includes software for simultaneous measurement of wall thickness and contour.
1.D.2. Software specially designed or modified for the development, production or use of equipment specified in 1.B.2.
b.
1.D.3. Software for any combination of electronic devices or systems that enables these devices to function as a numerical control unit for machine tools capable of controlling five or more controlled (copying) axes that can be simultaneously coordinated for controlled machining (copying).
Software is one of the controlled items, regardless of whether it is exported separately or found within a numerical control unit or in any other electronic device or system.
b.
1.E. Technology
1.E.1. Technology related to the control of production processes for the development, manufacture or use of equipment, materials or software specified in 1.A. to 1.D.;
2. MATERIALS
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Regulation Information
| Citation | Decree No. 376 / 2016 Coll., on dual-use items in the nuclear field |
|---|---|
| Regulation Type | Order |
| Author | - |
| Collection | Code of Laws |
| Date of Promulgation | 18.11.2016 |
|---|---|
| Effective from | 01.01.2017 |
| Effective until | - |
| Status | Valid |
The regulation text is for informational purposes only.
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