NEN-EN-ISO 14272
Specimen dimensions and procedure for cross tension testing resistance spot and embossed projection welds
inactive
| Organization: | NEN |
| Publication Date: | 1 December 2001 |
| Status: | inactive |
| Page Count: | 20 |
| ICS Code (Welded joints and welds): | 25.160.40 |
scope:
Specifies specimen dimensions and a testing procedure for the cross tension testing of spot and projection welds in overlapping sheets in any metallic material of thickness 0,5 mm to 3 mm, where the welds have a maximum diameter of 7 t (where t is the sheet thickness in mm). The object of cross tension testing is to determine the tensile force that the test specimen can sustain.
Document History
September 1, 2016
Resistance welding - Destructive testing of welds - Specimen dimensions and procedure for cross tension testing of resistance spot and embossed projection welds
NEN-EN-ISO 14272 specifies specimen dimensions and a testing procedure for the cross tension testing of spot and projection welds in overlapping sheets in any metallic material of thickness 0,5 mm to...
April 1, 2016
Resistance welding - Destructive testing of welds - Specimen dimensions and procedure for cross tension testing of resistance spot and embossed projection welds
NEN-EN-ISO 14272 specifies specimen dimensions and a testing procedure for the cross tension testing of spot and projection welds in overlapping sheets in any metallic material of thickness 0,5 mm to...
February 1, 2013
Specimen dimensions and procedure for cross tension testing resistance spot and embossed projection welds
NEN-EN-ISO 14272 specifies specimen dimensions and a testing procedure for the cross tension testing of spot and projection welds in overlapping sheets in any metallic material of thickness 0,5 mm to...
NEN-EN-ISO 14272
December 1, 2001
Specimen dimensions and procedure for cross tension testing resistance spot and embossed projection welds
Specifies specimen dimensions and a testing procedure for the cross tension testing of spot and projection welds in overlapping sheets in any metallic material of thickness 0,5 mm to 3 mm, where the...