INFLUENCE OF CREEP ON DYNAMIC VISCOELASTIC PROPERTIES OF THE SMC COMPOSITE

Chin J Mater Res

1993, Vol. 7

Issue (5): 446-450 DOI:

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INFLUENCE OF CREEP ON DYNAMIC VISCOELASTIC PROPERTIES OF THE SMC COMPOSITE

XUE Qing WANG Dangfeng ZHANG Shuangyin (Institute of Mechanics;Chinese Academy of Sciences)

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XUE Qing WANG Dangfeng ZHANG Shuangyin (Institute of Mechanics;Chinese Academy of Sciences). INFLUENCE OF CREEP ON DYNAMIC VISCOELASTIC PROPERTIES OF THE SMC COMPOSITE. Chin J Mater Res, 1993, 7(5): 446-450.

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Abstract A vibration-creep-vibration test procedure was adopted to characterize the in-fluence of creep on dynamic viscoelastic properties of a short fiber reinforced epoxy—sheetmoulding compound(SMC)composite under different temperature and different creep times.

Key words: dynamic viscoelasticity creep short fiber reinforced composite

Received: 25 October 1993

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1 Ferry J D.Viscoelastic Properties of Polymer,3rd Ed.New York:Wiley,1980:21
2 Hashin Z.Int J of Solids and Structures,1970;6:797
3 Read B E,Dean G D.The Determination of Dynamic Properties of Polymers and Composite.Bristol:Adam Hilger Ltd.1978
4 林敦祥,叶廷恩,王立军.马芯然等编:第五届全国复合材料学术会议论文集.西安1988:285
5 刘济庆,赵永成,张双寅.范赋群等编:第七届全国复合材料学术会议论文集.大连1992;F-16
6 孔庆平,山冰.物理学报,1989;38(8) :1299
7 Ward I M.Mechanical Properties of Solid Polymers 2nd Ed.Chechester,Wiley,1983;120
8 Birley,Haworth,Batachelor.Physics of Plastics,proceeding,Properties and Materials Engineering,1992;271
9 Crawford R J.Plastics Engineering,2nd Ed.Oxford Pergamon,1987:6

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