ANNEX I,Administrative documents for GB type-approval of vehicles with regard to hydrogen propulsion, Part 1,Information document, Part 2, GB type-approval certificate, Part 3,Information to be provided for inspection, ANNEX II,Administrative documents for GB component type-approval of hydrogen components and systems, Part 1,Information document, Part 2, GB type-approval certificate, Part 3, GB component type-approval mark, ANNEX III,Requirements for hydrogen components and systems designed to use liquid hydrogen and their installation on hydrogen powered vehicles, Part 1,Requirements for the installation of hydrogen components and systems designed to use liquid hydrogen on hydrogen powered vehicles, Part 2,Requirements for hydrogen containers designed to use liquid hydrogen, Part 3,Requirements for hydrogen components other than containers designed to use liquid hydrogen, ANNEX IV,Requirements for hydrogen components and systems designed to use compressed (gaseous) hydrogen and their installation on hydrogen powered vehicles, Part 1,Requirements for the installation of hydrogen components and systems designed to use compressed (gaseous) hydrogen on hydrogen powered vehicles, Part 2,Requirements for hydrogen containers designed to use compressed (gaseous) hydrogen, Part 3,Requirements for hydrogen components other than containers designed to use compressed (gaseous) hydrogen, ANNEX V,Vehicle identification requirements, ANNEX VI,Safety requirements of complex electronic vehicle control systems, ANNEX VII,Standards referenced by this Regulation, Explanatory notes:, Delete where not applicable (there are cases where nothing needs to be deleted when more than one entry is applicable)., Specify the tolerance, If the means of identification of type contains characters not relevant to describe the vehicle, component or separate technical unit types covered by this information document, such characters shall be represented in the documentation by the symbol ‘?’ (e.g. ABC??123??)., Classified according to the definitions set out in Article 4 to Regulation (EU) 2018/858 ., 0.,GENERAL,, 0.1.,Make (trade name of manufacturer): …,, 0.2.,Type: …,, 0.2.1,Commercial name(s) (if available): …,, 0.3.,Means of identification of type, if marked on the vehicle : …,, 0.3.1.,Location of that marking: …,, 0.4.,Category of vehicle : …,, 0.5.,Name and address of manufacturer: …,, 0.8.,Name(s) and address(es) of assembly plant(s): …,, 0.9.,Name and address of the manufacturer's representative (if any): …,, 1.,GENERAL CONSTRUCTION CHARACTERISTICS OF THE VEHICLE,, 1.1,Photographs and/or drawings of a representative vehicle: …,, 1.3.3.,Powered axles (number, position, interconnection): …,, 1.4.,Chassis (if any) (overall drawing): …,, 3.,POWER PLANT,, 3.9.,Hydrogen propulsion,, 3.9.1.,Hydrogen system designed to use liquid hydrogen / Hydrogen system designed to use compressed (gaseous) hydrogen ,, 3.9.1.1.,Description and drawing of the hydrogen system: …,, 3.9.1.2.,Name and address of the manufacturer(s) of the hydrogen system used for the propulsion of the vehicle: …,, 3.9.1.3.,Manufacturer's system code(s) (as marked on the system, or other means of identification): …,, 3.9.1.4.,Automatic shut-off valve(s): yes/no ,, 3.9.1.4.1.,Make(s): …,, 3.9.1.4.2.,Type(s): …,, 3.9.1.4.3.,Maximum Allowable Working Pressure (MAWP) ,MPa, 3.9.1.4.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.4.5.,Operating temperature : …,, 3.9.1.4.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.4.7.,Approval number: …,, 3.9.1.4.8.,Material: …,, 3.9.1.4.9.,Operating principles: …,, 3.9.1.4.10.,Description and drawing: …,, 3.9.1.5.,Check valve(s) or non-return valve(s): yes/no ,, 3.9.1.5.1.,Make(s): …,, 3.9.1.5.2.,Type(s): …,, 3.9.1.5.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.5.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.5.5.,Operating temperature : …,, 3.9.1.5.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.5.7.,Approval number: …,, 3.9.1.5.8.,Material: …,, 3.9.1.5.9.,Operating principles: …,, 3.9.1.5.10.,Description and drawing: …,, 3.9.1.6.,Container(s) and container assembly: yes/no ,, 3.9.1.6.1.,Make(s): …,, 3.9.1.6.2.,Type(s): …,, 3.9.1.6.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.6.4.,Nominal working pressure : …,MPa, 3.9.1.6.5.,Number of filling cycles : …,, 3.9.1.6.6.,Operating temperature : …,, 3.9.1.6.7.,Capacity: …,litres (water), 3.9.1.6.8.,Approval number: …,, 3.9.1.6.9.,Material: …,, 3.9.1.6.10.,Operating principles: …,, 3.9.1.6.11.,Description and drawing: …,, 3.9.1.7.,Fittings: yes/no ,, 3.9.1.7.1.,Make(s): …,, 3.9.1.7.2.,Type(s): …,, 3.9.1.7.3.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.7.4.,Number of filling cycles or duty cycles as appropriate: …,, 3.9.1.7.5.,Approval number: …,, 3.9.1.7.6.,Material: …,, 3.9.1.7.7.,Operating principles: …,, 3.9.1.7.8.,Description and drawing: …,, 3.9.1.8.,Flexible fuel line(s): yes/no ,, 3.9.1.8.1.,Make(s): …,, 3.9.1.8.2.,Type(s): …,, 3.9.1.8.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.8.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.8.5.,Operating temperature : …,, 3.9.1.8.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.8.7.,Approval number: …,, 3.9.1.8.8.,Material: …,, 3.9.1.8.9.,Operating principles: …,, 3.9.1.8.10.,Description and drawing: …,, 3.9.1.9.,Heat exchanger(s): yes/no ,, 3.9.1.9.1.,Make(s): …,, 3.9.1.9.2.,Type(s): …,, 3.9.1.9.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.9.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.9.5.,Operating temperature : …,, 3.9.1.9.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.9.7.,Approval number: …,, 3.9.1.9.8.,Material: …,, 3.9.1.9.9.,Operating principles: …,, 3.9.1.9.10.,Description and drawing: …,, 3.9.1.10.,Hydrogen filter(s): yes/no …,, 3.9.1.10.1.,Make(s): …,, 3.9.1.10.2.,Type(s): …,, 3.9.1.10.3.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.10.4.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.10.5.,Approval number: …,, 3.9.1.10.6.,Material: …,, 3.9.1.10.7.,Operating principles: …,, 3.9.1.10.8.,Description and drawing: …,, 3.9.1.11.,Hydrogen leakage detection sensors: …,, 3.9.1.11.1.,Make(s): …,, 3.9.1.11.2.,Type(s): …,, 3.9.1.11.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.11.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.11.5.,Operating temperature : …,, 3.9.1.11.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.11.7.,Set values: …,, 3.9.1.11.8.,Approval number: …,, 3.9.1.11.9.,Material: …,, 3.9.1.11.10.,Operating principles: …,, 3.9.1.11.11.,Description and drawing: …,, 3.9.1.12.,Manual or automatic valve(s): yes/no …,, 3.9.1.12.1.,Make(s): …,, 3.9.1.12.2.,Type(s): …,, 3.9.1.12.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.12.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.12.5.,Operating temperature : …,, 3.9.1.12.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.12.7.,Approval number: …,, 3.9.1.12.8.,Material: …,, 3.9.1.12.9.,Operating principles: …,, 3.9.1.12.10.,Description and drawing: …,, 3.9.1.13.,Pressure and/or temperature and/or hydrogen and/or flow sensor(s) : yes/no …,, 3.9.1.13.1.,Make(s): …,, 3.9.1.13.2.,Type(s): …,, 3.9.1.13.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.13.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.13.5.,Operating temperature : …,, 3.9.1.13.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.13.7.,Set values: …,, 3.9.1.13.8.,Approval number: …,, 3.9.1.13.9.,Material: …,, 3.9.1.13.10.,Operating principles: …,, 3.9.1.13.11.,Description and drawing: …,, 3.9.1.14.,Pressure regulator(s): yes/no …,, 3.9.1.14.1.,Make(s): …,, 3.9.1.14.2.,Type(s): …,, 3.9.1.14.3.,Number of main adjustment points: …,, 3.9.1.14.4.,Description of principle of adjustment through main adjustment points: …,, 3.9.1.14.5.,Number of idle adjustment points: …,, 3.9.1.14.6.,Description of principles of adjustment through idle adjustment points: …,, 3.9.1.14.7.,Other adjustment possibilities: if so and which (description and drawings): …,, 3.9.1.14.8.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.14.9.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.14.10.,Operating temperature : …,, 3.9.1.14.11.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.14.12.,Input and output pressure: …,, 3.9.1.14.13.,Approval number: …,, 3.9.1.14.14.,Material: …,, 3.9.1.14.15.,Operating principles: …,, 3.9.1.14.16.,Description and drawing: …,, 3.9.1.15.,Pressure relief device: yes/no …,, 3.9.1.15.1.,Make(s): …,, 3.9.1.15.2.,Type(s): …,, 3.9.1.15.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.15.4.,Operating temperature : …,, 3.9.1.15.5.,Set pressure : …,, 3.9.1.15.6.,Set temperature : …,, 3.9.1.15.7.,Blow off capacity : …,, 3.9.1.15.8.,Normal maximum operating temperature: …,°C, 3.9.1.15.9.,Nominal working pressure(s) : …,MPa, 3.9.1.15.10.,Number of filling cycles (Class 0 components only) : …,, 3.9.1.15.11.,Approval number: …,, 3.9.1.15.12.,Material: …,, 3.9.1.15.13.,Operating principles: …,, 3.9.1.15.14.,Description and drawing: …,, 3.9.1.16.,Pressure relief valve: yes/no …,, 3.9.1.16.1.,Make(s): …,, 3.9.1.16.2.,Type(s): …,, 3.9.1.16.3.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.16.4.,Set pressure : …,, 3.9.1.16.5.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.16.6.,Approval number: …,, 3.9.1.16.7.,Material: …,, 3.9.1.16.8.,Operating principles: …,, 3.9.1.16.9.,Description and drawing: …,, 3.9.1.17.,Refuelling connection or receptacle: yes/no …,, 3.9.1.17.1.,Make(s): …,, 3.9.1.17.2.,Type(s): …,, 3.9.1.17.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.17.4.,Operating temperature : …,, 3.9.1.17.5.,Nominal working pressure(s) : …,MPa, 3.9.1.17.6.,Number of filling cycles (Class 0 components only) : …,, 3.9.1.17.7.,Approval number: …,, 3.9.1.17.8.,Material: …,, 3.9.1.17.9.,Operating principles: …,, 3.9.1.17.10.,Description and drawing: …,, 3.9.1.18.,Removable storage system connector: yes/no …,, 3.9.1.18.1.,Make(s): …,, 3.9.1.18.2.,Type(s): …,, 3.9.1.18.3.,Nominal working pressure(s) and maximum allowable working pressure(s) : …,MPa, 3.9.1.18.4.,Number of duty cycles: …,, 3.9.1.18.5.,Approval number: …,, 3.9.1.18.6.,Material: …,, 3.9.1.18.7.,Operating principles: …,, 3.9.1.18.8.,Description and drawing: …,, 3.9.2.,Further documentation …,, 3.9.2.1.,Process diagram (flow chart) of the hydrogen system …,, 3.9.2.2.,System layout including electrical connections and other external system (inputs and/or outputs etc.) …,, 3.9.2.3.,Key to symbols used in documentation …,, 3.9.2.4.,Adjustment data of pressure relief devices and pressure regulators …,, 3.9.2.5.,Layout of cooling/heating system(s) including Nominal or Maximum Allowable Working Pressure (NAWP or MAWP) and operating temperatures …,, 3.9.2.6.,Drawings showing requirements for installation and operation.,, Explanatory notes, May be replaced by other dimensions defining the shape of the container., Delete as appropriate., Manufacturer identification,Manufacturer name: Manufacturer address:, Container identification,Container identification:,, Nominal working pressure:,MPa, Type:,, Diameter :,mm, Length :,mm, Internal volume:,litres, Empty weight:,kg, Container threads:,, Container service life,Maximum service life: Maximum number of fillingcycles:,years cycles, Container fire protection system,Pressure relief device manufacturer: Pressure relief device identification: Pressure relief device drawing number(s):, Container support method,Support method:,neck/cylinder mounting , Support drawing number(s):,, Container protective coatings,Purpose of protection: Protective coating drawing number(s):, Container design description,Container drawing numbers: Container drawings shall show at least the following information: Reference to this Regulation and the container type Principal geometrical dimensions including tolerances Container materials Container mass and internal volume including tolerances Details of the exterior protective coating Container fire protection system, Container corrosion inhibitor,Container corrosion inhibitor used: yes/no Corrosion inhibitor manufacturer: Corrosion inhibitor identification:, Additional information,Manufacturing data including tolerances where appropriate: Tube extrusion, cold deformation, tube drawing, end forming, welding, heat treatment and cleaning processes for the metal manufacturing of all containers designed to use liquid hydrogen and type 1, 2 and 3 containers designed to use compressed (gaseous) hydrogen Reference to the manufacturing procedure Acceptance criteria for non-destructive examination (NDE) Composite manufacturing processes and auto-frettage according to section 3.7.2. of Part 2 to Annex IV for the manufacturing of type 2, 3 and 4 containers designed to use compressed (gaseous) hydrogen Final manufacturing inspection of surface finish, thread details and principal dimensions A table summarising the results of stress analysis, Container statement of service,The manufacturer hereby states that the container design is suitable for use during the specified service life in the service conditions set out in section 2.7 of Annex IV to Regulation (EU) No 406/2010 as it has effect in domestic law . Manufacturer: Name, position and signature: Place, date:, Delete where not applicable, GB type-approval,of a type of a vehicle with regard to hydrogen propulsion , extension of GB type-approval, refusal of GB type-approval, withdrawal of GB type-approval,, Explanatory notes:, Delete where not applicable (there are cases where nothing needs to be deleted when more than one entry is applicable)., Specify the tolerance., 0.,GENERAL,, 0.1.,Make (trade name of manufacturer): …,, 0.2.,Type: …,, 0.2.1,Commercial name(s) (if available): …,, 0.2.2,Reference or part number of the component : …,, 0.2.3,Reference(s) or part number(s) of the component(s) in the system :,, 0.2.4,Reference or part number of the system : …,, 0.5.,Name(s) and address(es) of manufacturer: …,, 0.7.,Location and method of affixing of the GB type-approval mark(s):,, 0.8.,Name(s) and address(es) of assembly plant(s): …,, 0.9.,Name and address of the manufacturer's representative (if any): …,, 3.9.,Hydrogen propulsion : …,, 3.9.1.,Hydrogen system designed to use liquid hydrogen / Hydrogen system designed to use compressed (gaseous) hydrogen / Hydrogen component designed to use liquid hydrogen / Hydrogen component designed to use compressed (gaseous) hydrogen : …,, 3.9.1.1.,Description and drawing of the hydrogen system : …,, 3.9.1.2.,Name and address of the manufacturer(s) of the hydrogen system : …,, 3.9.1.3.,Manufacturer's system code(s) (as marked on the system, or other means of identification) : …,, 3.9.1.4.,Automatic shut-off valve(s): yes/no …,, 3.9.1.4.1.,Make(s): …,, 3.9.1.4.2.,Type(s): …,, 3.9.1.4.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.4.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.4.5.,Operating temperature : …,, 3.9.1.4.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.4.7.,Approval number: …,, 3.9.1.4.8.,Material: …,, 3.9.1.4.9.,Operating principles: …,, 3.9.1.4.10.,Description and drawing: …,, 3.9.1.5.,Check valve(s) or non-return valve(s): yes/no …,, 3.9.1.5.1.,Make(s): …,, 3.9.1.5.2.,Type(s): …,, 3.9.1.5.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.5.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.5.5.,Operating temperature : …,, 3.9.1.5.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.5.7.,Approval number: …,, 3.9.1.5.8.,Material: …,, 3.9.1.5.9.,Operating principles: …,, 3.9.1.5.10.,Description and drawing: …,, 3.9.1.6.,Container(s) and container assembly: yes/no …,, 3.9.1.6.1.,Make(s): …,, 3.9.1.6.2.,Type(s): …,, 3.9.1.6.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.6.4.,Nominal working pressure : …,MPa, 3.9.1.6.5.,Number of filling cycles : …,, 3.9.1.6.6.,Operating temperature : …,, 3.9.1.6.7.,Capacity: …,litres (water), 3.9.1.6.8.,Approval number: …,, 3.9.1.6.9.,Material: …,, 3.9.1.6.10.,Operating principles: …,, 3.9.1.6.11.,Description and drawing: …,, 3.9.1.7.,Fittings: yes/no …,, 3.9.1.7.1.,Make(s): …,, 3.9.1.7.2.,Type(s): …,, 3.9.1.7.3.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.7.4.,Number of filling cycles or duty cycles as appropriate: …,, 3.9.1.7.5.,Approval number: …,, 3.9.1.7.6.,Material: …,, 3.9.1.7.7.,Operating principles: …,, 3.9.1.7.8.,Description and drawing: …,, 3.9.1.8.,Flexible fuel line(s): yes/no …,, 3.9.1.8.1.,Make(s): …,, 3.9.1.8.2.,Type(s): …,, 3.9.1.8.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.8.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.8.5.,Operating temperature : …,, 3.9.1.8.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.8.7.,Approval number: …,, 3.9.1.8.8.,Material: …,, 3.9.1.8.9.,Operating principles: …,, 3.9.1.8.10.,Description and drawing: …,, 3.9.1.9.,Heat exchanger(s): yes/no …,, 3.9.1.9.1.,Make(s): …,, 3.9.1.9.2.,Type(s): …,, 3.9.1.9.3.,Maximum Allowable Working Pressure (MAWP …,MPa, 3.9.1.9.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.9.5.,Operating temperature : …,, 3.9.1.9.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.9.7.,Approval number: …,, 3.9.1.9.8.,Material: …,, 3.9.1.9.9.,Operating principles: …,, 3.9.1.9.10.,Description and drawing: …,, 3.9.1.10.,Hydrogen filter(s): yes/no …,, 3.9.1.10.1.,Make(s): …,, 3.9.1.10.2.,Type(s): …,, 3.9.1.10.3.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) :,MPa, 3.9.1.10.4.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.10.5.,Approval number: …,, 3.9.1.10.6.,Material: …,, 3.9.1.10.7.,Operating principles: …,, 3.9.1.10.8.,Description and drawing: …,, 3.9.1.11.,Hydrogen leakage detection sensors: …,, 3.9.1.11.1.,Make(s): …,, 3.9.1.11.2.,Type(s): …,, 3.9.1.11.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.11.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.11.5.,Operating temperature : …,, 3.9.1.11.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.11.7.,Set values: …,, 3.9.1.11.8.,Approval number: …,, 3.9.1.11.9.,Material: …,, 3.9.1.11.10.,Operating principles: …,, 3.9.1.11.11.,Description and drawing: …,, 3.9.1.12.,Manual or automatic valve(s): yes/no …,, 3.9.1.12.1.,Make(s): …,, 3.9.1.12.2.,Type(s): …,, 3.9.1.12.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.12.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.12.5.,Operating temperature : …,, 3.9.1.12.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.12.7.,Approval number: …,, 3.9.1.12.8.,Material: …,, 3.9.1.12.9.,Operating principles: …,, 3.9.1.12.10.,Description and drawing: …,, 3.9.1.13.,Pressure and/or temperature and/or hydrogen and/or flow sensor(s) : yes/no …,, 3.9.1.13.1.,Make(s): …,, 3.9.1.13.2.,Type(s): …,, 3.9.1.13.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.13.4.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.13.5.,Operating temperature : …,, 3.9.1.13.6.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.13.7.,Set values: …,, 3.9.1.13.8.,Approval number: …,, 3.9.1.13.9.,Material: …,, 3.9.1.13.10.,Operating principles: …,, 3.9.1.13.11.,Description and drawing: …,, 3.9.1.14.,Pressure regulator(s): yes/no …,, 3.9.1.14.1.,Make(s): …,, 3.9.1.14.2.,Type(s): …,, 3.9.1.14.3.,Number of main adjustment points: …,, 3.9.1.14.4.,Description of principle of adjustment through main adjustment points: …,, 3.9.1.14.5.,Number of idle adjustment points: …,, 3.9.1.14.6.,Description of principles of adjustment through idle adjustment points: …,, 3.9.1.14.7.,Other adjustment possibilities: if so and which (description and drawings): …,, 3.9.1.14.8.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.14.9.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.14.10.,Operating temperature : …,, 3.9.1.14.11.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.14.12.,Input and output pressure: …,, 3.9.1.14.13.,Approval number: …,, 3.9.1.14.14.,Material: …,, 3.9.1.14.15.,Operating principles: …,, 3.9.1.14.16.,Description and drawing: …,, 3.9.1.15.,Pressure relief device: yes/no …,, 3.9.1.15.1.,Make(s): …,, 3.9.1.15.2.,Type(s): …,, 3.9.1.15.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.15.4.,Operating temperature : …,, 3.9.1.15.5.,Set pressure : …,, 3.9.1.15.6.,Set temperature : …,, 3.9.1.15.7.,Blow off capacity : …,, 3.9.1.15.8.,Operating temperature :,, 3.9.1.15.9.,Normal maximum operating temperature : …,°C, 3.9.1.15.10.,Nominal working pressure(s) : …,MPa, 3.9.1.15.11.,Number of filling cycles (Class 0 components only) : …,, 3.9.1.15.12.,Approval number: …,, 3.9.1.15.13.,Material: …,, 3.9.1.15.14.,Operating principles: …,, 3.9.1.15.15.,Description and drawing: …,, 3.9.1.16.,Pressure relief valve: yes/no …,, 3.9.1.16.1.,Make(s): …,, 3.9.1.16.2.,Type(s): …,, 3.9.1.16.3.,Nominal working pressure(s) and if downstream of the first pressure regulator, maximum allowable working pressure(s) : …,MPa, 3.9.1.16.4.,Set pressure : …,, 3.9.1.16.5.,Number of filling cycles or duty cycles as appropriate : …,, 3.9.1.16.6.,Approval number: …,, 3.9.1.16.7.,Material: …,, 3.9.1.16.8.,Operating principles: …,, 3.9.1.16.9.,Description and drawing: …,, 3.9.1.17.,Refuelling connection or receptacle: yes/no …,, 3.9.1.17.1.,Make(s): …,, 3.9.1.17.2.,Type(s): …,, 3.9.1.17.3.,Maximum Allowable Working Pressure (MAWP) …,MPa, 3.9.1.17.4.,Operating temperature : …,, 3.9.1.17.5.,Nominal working pressure(s) : …,MPa, 3.9.1.17.6.,Number of filling cycles (Class 0 components only) : …,, 3.9.1.17.7.,Approval number: …,, 3.9.1.17.8.,Material: …,, 3.9.1.17.9.,Operating principles: …,, 3.9.1.17.10.,Description and drawing: …,, 3.9.1.18.,Removable storage system connector: yes/no …,, 3.9.1.18.1.,Make(s): …,, 3.9.1.18.2.,Type(s): …,, 3.9.1.18.3.,Nominal working pressure(s) and maximum allowable working pressure(s) : …,MPa, 3.9.1.18.4.,Number of duty cycles: …,, 3.9.1.18.5.,Approval number: …,, 3.9.1.18.6.,Material: …,, 3.9.1.18.7.,Operating principles: …,, 3.9.1.18.8.,Description and drawing: …,, 3.9.2.,Further documentation …,, 3.9.2.1.,Process diagram (flow chart) of the hydrogen system …,, 3.9.2.2.,System layout including electrical connections and other external system (inputs and/or outputs etc.) …,, 3.9.2.3.,Key to symbols used in documentation …,, 3.9.2.4.,Adjustment data of pressure relief devices and pressure regulators …,, 3.9.2.5.,Layout of cooling/heating system(s) including Nominal or Maximum Allowable Working Pressure (NAWP or MAWP) and operating temperatures …,, 3.9.2.6.,Drawings showing requirements for installation and operation …,, Explanatory notes:, May be replaced by other dimensions defining the shape of the container., Delete as appropriate., Manufacturer identification,Manufacturer name: Manufacturer address:, Container identification,Container identification:,, Nominal working pressure:,MPa, Type:,, Diameter :,mm, Length :,mm, Internal volume:,litres, Empty weight:,kg, Container threads:,, Container service life,Maximum service life:,years, Maximum number of filling cycles:,cycles, Container fire protection system,Pressure relief device manufacturer: Pressure relief device identification: Pressure relief device drawing number(s):, Container support method,Support method:,neck/cylinder mounting , Support drawing number(s):,, Container protective coatings,Purpose of protection: Protective coating drawing number(s):, Container design description,Container drawing numbers: Container drawings shall show at least the following information: Reference to this Regulation and the container type Principal geometrical dimensions including tolerances Container materials Container mass and internal volume including tolerances Details of the exterior protective coating Container fire protection system, Container corrosion inhibitor,Container corrosion inhibitor used: yes/no Corrosion inhibitor manufacturer: Corrosion inhibitor identification:, Additional information,Manufacturing data including tolerances where appropriate: Tube extrusion, cold deformation, tube drawing, end forming, welding, heat treatment and cleaning processes for the metal manufacturing of all containers designed to use liquid hydrogen and type 1, 2 and 3 containers designed to use compressed (gaseous) hydrogen Reference to the manufacturing procedure Acceptance criteria for non-destructive examination (NDE) Composite manufacturing processes and auto-frettage according to section 3.7.2. of Part 2 to Annex IV for the manufacturing of type 2, 3 and 4 containers designed to use compressed (gaseous) hydrogen Final manufacturing inspection of surface finish, thread details and principal dimensions A table summarising the results of stress analysis, Container statement of service,The manufacturer hereby states that the container design is suitable for use during the specified service life in the service conditions set out in section 2.7 of Annex IV to Regulation (EU) No 406/2010. Manufacturer: Name, position and signature: Place, date:, ,Material manufacturer,,,,,,,, ,Type of material,,,,,,,, ,Material identification,,,,,,,, ,Heat treatment definition,,,,,,,, ,Chemical composition,,,,,,,, ,Cold- or cryoforming procedure,,,,,,,, ,Welding procedure definition,,,,,,,, ,Tensile test,,,,,,,, ,Charpy impact test,,,,,,,, ,Bend test,,,,,,,, ,Macroscopic examination,,,,,,,, ,Corrosion test,,,,,,,, ,Sustained load cracking test,,,,,,,, ,Softening temperature test,,,,,,,, ,Glass transition temperature test,,,,,,,, ,Resin shear strength test,,,,,,,, ,Coating test,,,,,,,, ,Hydrogen compatibility test,,,,,,,, ,Burst Test,, ,Ambient Temperature Pressure Cycle Test,, ,LBB Performance Test,, ,Bonfire Test,, ,Penetration Test,, ,Chemical Exposure Test,, ,Composite Flaw Tolerance Test,, ,Accelerated Stress Rupture Test,, ,Extreme Temperature Pressure Cycle Test,, ,Impact Damage Test,, ,Leak Test,, ,Permeation Test,, ,Boss Torque Test,, ,Hydrogen Gas Cycling Test,, Delete where not applicable, GB  type-approval,of a type of hydrogen component, extension of GB  type-approval, refusal of GB  type-approval,, withdrawal of GB  type-approval,, ,Material manufacturer,,,,,,,, ,Type of material,,,,,,,, ,Material identification,,,,,,,, ,Heat treatment definition,,,,,,,, ,Chemical composition,,,,,,,, ,Cold- or cryoforming procedure,,,,,,,, ,Welding procedure definition,,,,,,,, ,Tensile test,,,,,,,,, ,Charpy impact test,,,,,,,,, ,Bend test,,,,,,,,, ,Macroscopic examination,,,,,,,,, ,Corrosion test,,,,,,,,, ,Sustained load cracking test,,,,,,,,, ,Softening temperature test,,,,,,,,, ,Glass transition temperature test,,,,,,,,, ,Resin shear strength test,,,,,,,,, ,Coating test,,,,,,,,, ,Hydrogen compatibility test,,,,,,,,, ,Burst Test,,, ,Ambient Temperature Pressure Cycle Test,,, ,LBB Performance Test,,, ,Bonfire Test,,, ,Penetration Test,,, ,Chemical Exposure Test,,, ,Composite Flaw Tolerance Test,,, ,Accelerated Stress Rupture Test,,, ,Extreme Temperature Pressure Cycle Test,,, ,Impact Damage Test,,, ,Leak Test,,, ,Permeation Test,,, ,Boss Torque Test,,, ,Hydrogen Gas Cycling Test,,, – 40 °C to + 120 °C,– 40 °C to + 85 °C, Pressure test,section 4.2, External leakage test,section 4.3, Operational test,section 4.5, Corrosion resistance,section 4.6, only for metallic parts, only for equipment outside of the gas tight housing, Temperature cycle test,section 4.9, only for non-metallic parts, Pressure test,section 4.2, External leakage test,section 4.3, Endurance test,section 4.4 (with 6 000 operation cycles for manual valves with 20 000 operation cycles for automatic valves), Corrosion resistance,section 4.6, only for metallic parts, only for equipment outside of the gas tight housing, Resistance to dry-heat,section 4.7, only for non-metallic parts, Ozone ageing,section 4.8, only for non-metallic parts, Temperature cycle test,section 4.9, only for non-metallic parts, Seat leakage test,section 4.12, Pressure test,section 4.2, External leakage test,section 4.3, Corrosion resistance,section 4.6, only for metallic parts, Resistance to dry-heat,section 4.7, only for non-metallic parts, Ozone ageing,section 4.8, only for non-metallic parts, Temperature cycle test,section 4.9, only for non-metallic parts, Pressure test,section 4.2, External leakage test,section 4.3, Endurance test,section 4.4 (with 3 000 operation cycles), Corrosion resistance,section 4.6, only for metallic parts, Resistance to dry-heat,section 4.7, only for non-metallic parts, Ozone ageing,section 4.8, only for non-metallic parts, Temperature cycle test,section 4.9, only for non-metallic parts, Seat leakage test,section 4.12, Pressure test,section 4.2, External leakage test,section 4.3, Endurance test,section 4.4 (with 20 000 operation cycles), Corrosion resistance,section 4.6, only for metallic parts, only for equipment outside of the gas tight housing, Resistance to dry-heat,section 4.7, only for non-metallic parts, Ozone ageing,section 4.8, only for non-metallic parts, Temperature cycle test,section 4.9, only for non-metallic parts, Seat leakage test,section 4.12, Pressure test,section 4.2, only for equipment directly in contact with hydrogen, External leakage test,section 4.3, only for equipment directly in contact with hydrogen, Corrosion resistance,section 4.6, only for metallic parts, only for equipment outside of the gas tight housing, Resistance to dry-heat,section 4.7, Ozone ageing,section 4.8, only for non-metallic parts, Temperature cycle test,section 4.9, only for non-metallic parts, Pressure test,section 4.2, External leakage test,section 4.3, Corrosion resistance,section 4.6, only for metallic parts, only for equipment outside of the gas tight housing, Resistance to dry-heat,section 4.7, only for non-metallic parts, Ozone ageing,section 4.8, only for non-metallic parts, Temperature cycle test,section 4.9, only for non-metallic parts, Pressure cycle,section 4.10, Explanatory note:, For container designs using hybrid reinforcement, i.e. two or more different structural fibre types, consideration shall be given to the load share between the different fibres based on the different elastic moduli of the fibres. The calculated stress ratios for each individual structural fibre type shall conform to the specified values. Verification of the stress ratios may also be performed using strain gauges. The minimum burst pressure ratio shall be chosen such that the calculated stress in the structural fibres at the minimum burst pressure ratio times nominal working pressure divided by the calculated stress in the structural fibre at nominal working pressure meets the stress ratio requirements for the fibres used., All metal,2,25,,,, Over-wrap,Glass,,2,4,3,4,3,5, Aramid,,2,25,2,9,3,0, Carbon,,2,25,2,25,2,25, Hybrid,,, Explanatory notes:, For steel containers or liners refer to section 10.2. of ISO 9809-1 or section 10.2. of ISO 9809-2 as appropriate; For stainless steel containers or liners refer to section 7.1.2.1. of EN 1964-3; For welded stainless steel liners refer to section 8.4. of EN 13322-2; For aluminium alloy containers or liners refer to section 10.2. of ISO 7866; For welded aluminium alloy liners refer to sections 7.2.3. and 7.2.4. of EN 12862; For non-metallic liners refer to section 4.1.1.;, For steel containers or liners refer to section 10.4. of ISO 9809-1 or section 10.4. of ISO 9809-2 as appropriate; For stainless steel containers or liners refer to section 7.1.2.4. of EN 1964-3; For welded stainless steel liners refer to section 8.6. of EN 13322-2;, For welded stainless steel liners refer to section 8.5. of EN 13322-2; For welded aluminium alloy liners refer to sections 7.2.5., 7.2.6. and 7.2.7. of EN 12862;, For welded stainless steel liners refer to section 8.7. of EN 13322-2., Test on liner material., The following test sequence shall be used for container type 4: boss torque test (section 4.2.13.), followed by an ambient temperature pressure cycling test (section 4.2.2.), followed by a leak test (section 4.2.11.)., A leak test shall be carried out on all welded metal liners., ,Tensile test,,,,,,, ,Charpy impact test,,,,,,, ,Bend test,,,,,,, ,Macroscopic examination,,,,,,, 4.1.2.,Softening temperature test,,,,,,, 4.1.6.,Coating batch test,,,,,,, 4.2.1.,Burst test,,,,,,, 4.2.2.,Ambient temperature pressure cycle test,,,,,,, 4.2.11.,Leak test,,,,,,, 4.2.13.,Boss torque test,,,,,,, Explanatory notes:, Test on metallic liner., A leak test shall be carried out on all welded metal liners., ,Principal design dimensions,,,,, Appendix to the information document as set out in Part 1 to Annex II,Principal manufacturing parameters,,,,, ,NDE,,,,, 4.1.8.,Hardness test,,,,, 4.2.11.,Leak test,,,,, 4.2.15.,Hydraulic test,,,,, 3.8.,Markings,,,,, Only when thickness change is proportional to diameter or pressure change., A hydrogen cycle test is not required if the stresses in the neck are equal to the original or reduced by the design change (e.g. Reducing the diameter of internal threads, or changing the boss length), the liner to boss interface is not affected, and the original materials are used for boss, liner, and seals., Any deviation from the parameters in the appendix to the information document as set out in Part 1 to Annex II is considered to be a change in manufacturing process., Explanatory notes: for example: ‘2, 3’ indicates that a test is required for type 2 and 3 containers only., Fibre manufacturer,,,2, 3, 4,2, 3, 4,2, 3, 4,,,,,2, 3, 4,3, 4,, Metallic container or liner material,1, 2, 3,1, 2, 3,1, 2, 3,1, 2, 3,1, 2,1, 2, 3,1, 2, 3,1, 2, 3,2, 3,2, 3,3,, Plastic liner material,4,,,4,,,,4,,,,4, Fibre material,2, 3, 4,,2, 3, 4,2, 3, 4,2, 3, 4,2, 3, 4,2, 3, 4,2, 3, 4,2, 3, 4,2, 3, 4,3, 4,, Resin material,,,,,,,2, 3, 4,2, 3, 4,2, 3, 4,2, 3, 4,3, 4,, Diameter change ≤ 20 %,,,1, 2, 3, 4,1, 2, 3, 4,,,,,,,,, Diameter change >20 %,,,1, 2, 3, 4,1, 2, 3, 4,,1, 2, 3, 4,1, 2, 3, 4,,2, 3, 4,,3, 4,, Length change ≤ 50 %,,,1, 2, 3, 4,,,—,,,,,,, Length change > 50 %,,,1, 2, 3, 4,1, 2, 3, 4,,1, 2, 3, 4,,,,,3, 4,, Nominal working pressure change ≤ 20 % ,,,1, 2, 3, 4,1, 2, 3, 4,,,,,,,,, Nominal working pressure change > 20 % ,,,1, 2, 3, 4,1, 2, 3, 4,1, 2, 3, 4,1, 2, 3, 4,1, 2, 3, 4,,,,,, Dome shape,,,1, 2, 3, 4,1, 2, 3, 4,,,,,,,,4, Opening size,,,1, 2, 3, 4,1, 2, 3, 4,,,,,,,,, Coating change,2, 3, 4,,,,,,,2, 3, 4,,,,, End boss design,,,,,,,,,,,,4 , Change in manufacturing process ,,,1, 2, 3, 4,1, 2, 3, 4,,,,,,,,, Fire protection system,,,,,,1, 2, 3, 4,,,,,,, Explanatory notes:, For containers with welded liners only., For steel containers or liners refer to paragraph 10.2. of ISO 9809-1 or paragraph 10.2. of ISO 9809-2 as appropriate; For stainless steel containers or liners refer to paragraph 7.1.2.1. of EN 1964-3; For welded stainless steel liners refer to paragraph 8.4. of EN 13322-2; For aluminium alloy containers or liners refer to paragraph 10.2. of ISO 7866; For welded aluminium alloy liners refer to paragraphs 7.2.3. and 7.2.4. of EN 12862; For non-metallic liners refer to paragraph 4.1.1. of Part 2 to Annex IV;, For steel containers or liners refer to paragraph 10.4. of ISO 9809-1 or paragraph 10.4. of ISO 9809-2 as appropriate; For stainless steel containers or liners refer to paragraph 7.1.2.4. of EN 1964-3; For welded stainless steel liners refer to paragraph 8.6. of EN 13322-2;, For welded stainless steel liners refer to paragraph 8.5. of EN 13322-2; For welded aluminium alloy liners refer to paragraphs 7.2.5., 7.2.6. and 7.2.7. of EN 12862., For welded stainless steel liners refer to paragraph 8.7. of EN 13322-2., For aluminium alloy containers or liners refer to Annex A of ISO 7866; For welded aluminium alloy liners refer to Annex A of EN 12862., For aluminium alloy containers or liners refer to Annex B of ISO 7866, but excluding the second paragraph of clause B.2.; For welded aluminium alloy liners refer to Annex B of EN 12862, but excluding paragraph B.2.2., This test is not required for: Steels that conform to paragraphs 6.3. and 7.2.2 of ISO 9809-1; Aluminium alloys that conform to paragraph 6.1. of ISO 7866. For other metallic containers or liners, hydrogen compatibility of the material, including welds, shall be demonstrated in accordance with ISO 11114-1 and ISO 11114-4 or section 4.1.7. as appropriate; For non-metallic materials hydrogen compatibility shall be demonstrated., Tensile test ,,,,,,, Charpy impact test ,,,,,,, Bend test ,,,,,,, Macroscopic examination ,,,,,,, Corrosion test ,,,,,,, Sustained load cracking test ,,,,,,, Softening temperature test,,,,,,, Glass transition temperature test,,,,,,, Resin shear strength test,,,,,,, Coating test,,,,,,, Hydrogen compatibility test ,,,,,,, Automatic valve,1,5 times the number of duty cycles or filling cycles in accordance with section 2.7.6. or 2.7.7., as appropriate to the use of the valve., Manual valve,100, Non-return valve,2,0 times the number of duty cycles or filling cycles in accordance with section 2.7.6. or 2.7.7., as appropriate to the use of the valve., ISO 188:2007,Rubber, vulcanised or thermoplastic — Accelerated ageing and heat resistance tests, ISO 306:2004,Plastics — Thermoplastic materials — Determination of Vicat softening temperature (VST), ISO 527-2:1993/Cor 1:1994,Plastics — Determination of tensile properties — Part 2: Test conditions for moulding and extrusion plastics, ISO 1431-1:2004/Amd 1:2009,Rubber, vulcanised or thermoplastic — Resistance to ozone cracking — Part 1: Static and dynamic strain testing, ISO 2768-1:1989,General tolerances — Part 1: Tolerances for linear and angular dimensions without individual tolerance indications, ISO 2808:2007,Paints and varnishes — Determination of film thickness, ISO 3864-1:2002,Graphical symbols – Safety colours and safety signs – Part 1: Design principles for safety signs in workplaces and public areas, ISO 4624:1978,Paints and varnishes — Pull-off test for adhesion, ISO 6506-1:2005,Metallic materials — Brinell hardness test — Part 1: Test method, ISO 6957:1988,Copper alloys — Ammonia test for stress corrosion resistance, ISO 7225:2005,Gas cylinders — Precautionary labels, ISO 7866:1999,Gas cylinders — Refillable seamless aluminium alloy gas cylinders — Design, construction and testing, ISO 8491:2004,Metallic materials — Tube (in full section) — Bend test, ISO 9227:2006,Corrosion tests in artificial atmospheres — Salt spray tests, ISO 9809-1:1999,Gas cylinders — Refillable seamless steel gas cylinders — Design, construction and testing — Part 1: Quenched and tempered steel cylinders with tensile strength less than 1 100 MPa, ISO 9809-2:2000,Gas cylinders — Refillable seamless steel gas cylinders — Design, construction and testing — Part 2: Quenched and tempered steel cylinders with tensile strength greater than or equal to 1 100 MPa, ISO 11114-1:1997,Transportable gas cylinders — Compatibility of cylinder and valve materials with gas contents — Part 1: Metallic materials, ISO 11114-4:2005,Transportable gas cylinders — Compatibility of cylinder and valve materials with gas contents — Part 4: Test methods for selecting metallic materials resistant to hydrogen embrittlement, ISO/TS 14687-2:2008,Hydrogen fuel — Product specification — Part 2: Proton exchange membrane (PEM) fuel cell applications for road vehicles, EN 1251-2:2000/AC:2006,Cryogenic vessels — Transportable vacuum insulated vessels of not more than 1 000 litres volume — Part 2: Design, fabrication, inspection and testing, EN 1252-1:1998/AC:1998,Cryogenic vessels — Materials — Part 1: Toughness requirements for temperatures below – 80 °C, EN 1797:2001,Cryogenic vessels — Gas/material compatibility, EN 1964-3:2000,Transportable gas cylinders — Specification for the design and construction of refillable transportable seamless steel gas cylinders of water capacities from 0,5 litre up to and including 150 litres — Part 3: Cylinders made of seamless stainless steel with an R m value of less than 1 100 MPa, EN 10204:2004,Metallic products — Types of inspection documents, EN 12300:1998/A1:2006,Cryogenic vessels — Cleanliness for cryogenic service, EN 12434:2000/AC:2001,Cryogenic vessels — Cryogenic flexible hoses, EN 12862:2000,Transportable gas cylinders — Specification for the design and construction of refillable transportable welded aluminium alloy gas cylinders, EN 13322-2:2003/A1:2006,Transportable gas cylinders — Refillable welded steel gas cylinders — Design and construction — Part 2: Stainless steel, EN 13648-1:2008,Cryogenic vessels — Safety devices for protection against excessive pressure — Part 1: Safety valves for cryogenic service, EN 13648-2:2002,Cryogenic vessels — Safety devices for protection against excessive pressure — Part 2: Bursting disc safety devices for cryogenic service, EN 13648-3:2002,Cryogenic vessels — Safety devices for protection against excessive pressure — Part 3: Determination of required discharge — Capacity and sizing, ASTM B117 - 07a,Standard practice for operating salt spray (fog) apparatus, ASTM D522 - 93a(2008),Standard test methods for mandrel bend test of attached organic coatings, ASTM D572 - 04,Standard test method for rubber — Deterioration by heat and oxygen, ASTM D1308 - 02(2007),Standard test method for effect of household chemicals on clear and pigmented organic finishes, ASTM D2344 / D2344M - 00(2006),Standard test method for short-beam strength of polymer matrix composite materials and their laminates, ASTM D2794 - 93(2004),Standard test method for resistance of organic coatings to the effects of rapid deformation (impact), ASTM D3170 - 03(2007),Standard test method for chipping resistance of coatings, ASTM D3359 - 08,Standard test methods for measuring adhesion by tape test, ASTM D3418 - 08,Test method for transition temperatures and enthalpies of fusion and crystallisation of polymers by differential scanning calorimetry, ASTM G154 - 06,Standard practice for operating fluorescent light apparatus for UV exposure of non-metallic materials,