BS EN ISO 75-2:2013
Plastics. Determination of temperature of deflection under load Plastics and ebonite
Standard number: | BS EN ISO 75-2:2013 |
Pages: | 20 |
Released: | 2013-04-30 |
ISBN: | 978 0 580 73628 5 |
Status: | Standard |
BS EN ISO 75-2:2013
This standard BS EN ISO 75-2:2013 Plastics. Determination of temperature of deflection under load is classified in these ICS categories:
- 83.080.10 Thermosetting materials
- 83.060 Rubber
This part of ISO 75 specifies three methods, using different values of constant flexural stress, which can be used for the determination of the temperature of deflection under load of plastics (including filled plastics and fibre-reinforced plastics in which the fibre length, prior to processing, is up to 7,5 mm) and ebonite:
method A, using a flexural stress of 1,80 MPa;
method B, using a flexural stress of 0,45 MPa;
method C, using a flexural stress of 8,00 MPa.
The standard deflection, Δs, used to determine the temperature of deflection under load corresponds to a flexural-strain increase, Δεf, defined in this part of ISO 75. The initial flexural strain due to the loading of the specimen at room temperature is neither specified nor measured in this part of ISO 75. The ratio of this flexural-strain increase to the initial flexural strain depends on the modulus of elasticity, at room temperature, of the material under test. This method is, therefore, only suitable for comparing the temperatures of deflection of materials with similar room-temperature elastic properties.
NOTE 1 The methods give better reproducibility with amorphous plastics than with semi-crystalline ones. With some materials, it can be necessary to anneal the test specimens to obtain reliable results. Annealing procedures, if used, generally result in an increase in the temperature of deflection under load (see 6.6).
NOTE 2 For additional information, see ISO 75-1:2013, Clause 1.
Plastics - Methods of test for the determination of the effects of immersion in liquid chemicals (ISO 175:2010)
ISO 14125:1998-Fibre-reinforced plastic composites — Determination of flexural properties