Tensile properties of carbon fibres and carbon fibre-polymer composites in fire
- 作者:S. Feiha ; b ; A.P. Mouritza ; adrian.mouritz@rmit.edu.au
- 关键词:A. Carbon fibre ; A. Polymer&ndash ; matrix composites (PMCs) ; B. High-temperature properties ; B. Thermomechanical
- 刊名:Composites Part A ; Applied Science and Manufacturing (Incorporating Composites and Composites Manufacturing)
- 出版年:2012
- 期刊代码:17_1359835x
- 类别:ms
- 出版时间:May, 2012
- 卷:43
- 期:5
- 页码:765-772
- 文件大小:718 K
摘要
The effect of fire on the tensile properties of carbon fibres is experimentally determined to provide new insights into the tensile performance of carbon fibre-polymer composite materials during fire. Structural tests on carbon-epoxy laminate reveal that thermally-activated weakening of the fibre reinforcement is the dominant softening process which leads to failure in the event of a fire. This process is experimentally investigated by determining the reduction to the tensile properties and identifying the softening mechanism of T700 carbon fibre following exposure to simulated fires of different temperatures (up to 700 掳C) and atmospheres (air and inert). The fibre modulus decreases with increasing temperature (above 鈭?00 掳C) in air, which is attributed to oxidation of the higher stiffness layer in the near-surface fibre region. The fibre modulus is not affected when heated in an inert (nitrogen) atmosphere due to the absence of surface oxidation, revealing that the stiffness loss of carbon fibre composites in fire is sensitive to the oxygen content. The tensile strength of carbon fibre is reduced by nearly 50%following exposure to temperatures over the range 400-700 掳C in an air or inert atmosphere. Unlike the fibre modulus, the reduction in fibre strength is insensitive to the oxygen content of the atmosphere during fire. The reduction in strength is possibly attributable to very small (under 鈭?00 nm) flaws and removal of the sizing caused by high temperature exposure.