NEN-EN-ISO 75-2/C11
Plastics - Determination of temperature of deflection under load - Part 2: Plastics and ebonite
inactive
| Organization: | NEN |
| Publication Date: | 1 May 2007 |
| Status: | inactive |
| Page Count: | 4 |
| ICS Code (Thermosetting materials): | 83.080.10 |
| ICS Code (Plastics in general): | 83.080.01 |
| ICS Code (Rubber): | 83.060 |
scope:
Title has been changed
Document History
May 1, 2013
Plastics - Determination of temperature of deflection under load - Part 2: Plastics and ebonite
This part of ISO 75 specifies three methods, using different values of constant flexural stress, that can be used for the determination of the temperature of deflection under load of plastics...
January 1, 2012
Plastics - Determination of temperature of deflection under load - Part 2: Plastics and ebonite
This part of ISO 75 specifies three methods, using different values of constant flexural stress, that can be used for the determination of the temperature of deflection under load of plastics...
NEN-EN-ISO 75-2/C11
May 1, 2007
Plastics - Determination of temperature of deflection under load - Part 2: Plastics and ebonite
Title has been changed
May 1, 2004
Plastics - Determination of temperature of deflection under load - Part 2: Plastics and ebonite
This part of ISO 75 specifies three methods, using different values of constant flexural stress, that can be used for the determination of the temperature of deflection under load of plastics...
April 1, 2001
Plastics - Determination of temperature of deflection under load - Part 2: Plastics and ebonite
This part of ISO 75 specifies three methods, using different values of constant flexural stress, that can be used for the determination of the temperature of deflection under load of plastics...
March 1, 1996
Plastics - Determination of temperature of deflection under load - Part 2: Plastics and ebonite
The principle of the method specified is subjecting a standard test specimen to a bending stress to produce one of the nominal surface stresses (method A: 1,80 MPa, method B: 0,45 MPa, method C: 8,00...