This paper examines the thermal‐mechanical response of satin weave carbon fiber reinforced polymer (CFRP) laminates with internal and/or edge cracks subjected to uniaxial tension load at cryogenic temperatures. Cracks are considered to occur in the transverse fiber bundles and extend through the entire thickness of the fiber bundles. Two‐dimentional generalized plane strain finite element models are developed to study the effects of residual thermal stresses and cracks on the mechanical behavior of CFRP woven laminates. A detailed examination of the Young's modulus and stress distributions near the crack tip is carried out which provides insight into material behavior at cryogenic temperatures.

Topics
Cryogenics, Composite materials, Elastic modulus, Materials analysis, Thermal effects, Differential topology, Finite-element analysis, Educational assessment
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© 2008 American Institute of Physics.
2008
American Institute of Physics