Pull-off. Test the gas tube and its coupling(s) according to the following procedure and acceptance criteria. Secure the subject specimen in an appropriate test fixture, then statically apply a tensile load along the gas tube axis at a maximum rate of 250 N/min until the gas tube separates from the coupling(s). The force (F), in Xxxxxx, required to pull apart the gas tube from its coupling(s) shall be that calculated as: F = (π∙d2∙P)/10 where d is the internal diameter, in millimetres; P is the maximum working pressure, in bar.
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Samples: Agreement Concerning the Adoption of Harmonized Technical United Nations Regulations for Wheeled Vehicles, Agreement Concerning the Adoption of Harmonized Technical United Nations Regulations for Wheeled Vehicles, Agreement Concerning the Adoption of Harmonized Technical United Nations Regulations for Wheeled Vehicles
Pull-off. Test the gas tube and its coupling(s) according to the following procedure and acceptance criteria. Secure the subject specimen in an appropriate test fixture, then statically apply a tensile load along the gas tube axis at a maximum rate of 250 N/min until the gas tube separates from the coupling(s). The force (F), in XxxxxxNewton, required xxxxxred to pull apart the gas tube from its coupling(s) shall be that calculated as: F = (π∙d2∙P)/10 ) 2ÂP )/1ʌ0 ÂG where d is the internal diameter, in millimetres; P is the maximum working pressure, in bar.
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Pull-off. Test the gas tube and its coupling(s) according to the following procedure and acceptance criteria. Secure the subject specimen in an appropriate test fixture, then statically apply a tensile load along the gas tube axis at a maximum rate of 250 N/min until the gas tube separates from the coupling(s). The force (F), in XxxxxxNewton, required to pull apart the gas tube from its coupling(s) shall be that calculated as: F = (π∙d2∙P)/10 where d is the internal diameter, in millimetres; P is the maximum working pressure, in bar.
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