EFFECT OF A CRACK ON STRENGTH OF FIBER-REINFORCED PLASTICS

被引:4
作者
BAZHENOV, SL
BERLIN, AA
机构
[1] Institute of Chemical Physics, Academy of Science of the USSR, Moscow, 117977, Kosigin Street
关键词
D O I
10.1007/BF00582464
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
In unidirectionally reinforced composites with an elastic-plastic matrix, there is a plastic zone with length Y0 proportional to the crack length C (Y0≫ C) at the tip of a crack. This results in a new logarithmic dependence of glass and aramid PABI fibre-reinforced plastics (FRP) on crack length and non-fulfilment of the Griffith criterion. In glass and PABI FRP without an artificial notch, defects already exist equivalent to a crack with a length depending on composite fabrication practice. In GFRP, the epoxy matrix shear yield stress grows 2.0 to 2.5 times, compared to the yield in thin films due to fibre constraint of matrix yielding. The stress distribution in front of a crack in a highly anisotropic composite with an elastic-plastic matrix is derived. The stress concentration at the tip of a crack grows with increasing matrix yield stress, resulting in a change of failure mode from accumulation of fibre breaks at low matrix strength, to brittle failure at high matrix strength. The following factors lead to composite embrittlement: (1) increase of matrix yield stress and composite shear strength; (2) decrease of temperature; (3) increase of Young's modulus of the fibre; (4) reduction of fibre strength. The dependence of aramid PPTA FRP strength on temperature exhibits a maximum. Epoxy matrix plastification leads to some increase of aramid PPTA FRP strength. © 1990 Chapman and Hall Ltd.
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页码:3941 / 3949
页数:9
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