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Homepage>BS Standards>83 RUBBER AND PLASTICS INDUSTRIES>83.080 Plastics>83.080.01 Plastics in general>BS ISO 17744:2004 Plastics. Determination of specific volume as a function of temperature and pressure (pVT diagram). Piston apparatus method
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immediate downloadReleased: 2004-12-08
BS ISO 17744:2004 Plastics. Determination of specific volume as a function of temperature and pressure (pVT diagram). Piston apparatus method

BS ISO 17744:2004

Plastics. Determination of specific volume as a function of temperature and pressure (pVT diagram). Piston apparatus method

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Standard number:BS ISO 17744:2004
Pages:28
Released:2004-12-08
ISBN:0 580 45006 6
Status:Standard
DESCRIPTION

BS ISO 17744:2004


This standard BS ISO 17744:2004 Plastics. Determination of specific volume as a function of temperature and pressure (pVT diagram). Piston apparatus method is classified in these ICS categories:
  • 83.080.01 Plastics in general

This International Standard describes procedures for determining the specific volume of plastics as a function of temperature and pressure in both the molten and solid states.

The standard specifies the use of a piston-equipped apparatus in which the test sample, held in a measurement cell, is pressurized by means of the piston. Measurements under conditions of constant pressure or constant temperature can be made. In the constant-pressure mode, the maximum heating and cooling rates permissible are restricted to 5 °C/min.

NOTE Higher heating and cooling rates can be used, but data will then have to be corrected for thermal gradients[13].

For the acquisition of data needed for processing design, it is recommended that the isobaric cooling method be used (see ISO 17282). The result of this measurement cannot be used directly for injection-moulding simulation.

By using these procedures, it is possible to obtain:

  • pvT diagrams that represent the relationship which exists between pressure, specific volume and temperature for a given material;

  • compressibility and volumetric thermal-expansion coefficients;

  • information on first-order and glass transitions as a function of temperature and pressure.

Although thermoplastic polymers are currently tested down to room temperature using these procedures, it is emphasized that, at temperatures lower than Tg, the difficulty in achieving a true hydrostatic state is a source of uncertainty on the specific volume measurement.