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Homepage>BS Standards>83 RUBBER AND PLASTICS INDUSTRIES>83.080 Plastics>83.080.01 Plastics in general>BS 2782-3:Method 323D:1996 Methods of testing plastics Mechanical properties
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BS 2782-3:Method 323D:1996 Methods of testing plastics Mechanical properties

BS 2782-3:Method 323D:1996

Methods of testing plastics Mechanical properties

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Standard number:BS 2782-3:Method 323D:1996
Pages:12
Released:2007-03-30
ISBN:0 580 26067 4
Status:Standard
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BS 2782-3:Method 323D:1996


This standard BS 2782-3:Method 323D:1996 Methods of testing plastics is classified in these ICS categories:
  • 83.080.01 Plastics in general

This part of ISO 6721 describes a torsional, non-resonance method for determining the components of the shear complex modulus G* of solid polymers in the form of bars or rods at frequencies typically in the range 0,001 Hz to 100 Hz. 30162225_img1 Higher-frequency measurements can be made, but significant errors may be obtained in the dynamic properties measured (see 10.2.1 and 10.2.2). 30162225_img2 The method is suitable for measuring dynamic storage moduli ranging from about 10 MPa, which is typical of values obtained for stiff rubbers, to values of about 10 GPa which are representative of fibre-reinforced plastics. Although materials with moduli less than 10 MPa may be studied, more accurate measurements of their dynamic properties can be made using simple shear (see ISO 6721-6) or torsional deformations of thin layers between parallel plates.

This method is particularly suited to the measurement of loss factors greater than 0,1 and may therefore be conveniently used to study the variation of dynamic properties with temperature and frequency through most of the glass-rubber relaxation region (see ISO 6721-1:1994, subclause 9.4). The availability of data determined over wide ranges of both frequency and temperature enable master plots to be derived, using frequency-temperature shift procedures, which display dynamic properties over an extended frequency range at different temperatures.

Although loss factors below 0,1 may be more accurately determined using the torsion pendulum (see ISO 6721-2), the method described in this part of ISO 6721 enables a much wider and continuous frequency range to be covered.