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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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.
Appears in 1 contract
Samples: www.marklines.com
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 xxxxired 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.
Appears in 1 contract
Samples: www.marklines.com
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.
Appears in 1 contract
Samples: unece.org