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Thermoelastic Determination of KI and KII in an Orthotropic Graphite–Epoxy CompositeDepartment of Civil Engineering National Cheng-Kung University Tainan, Taiwan, ROCjuju{at}mail.ncku.edu.tw
Department of Mechanical Engineering University of Wisconsin Madison, WI, 53706, USA Motivated by difficulties in recording reliable data in the immediate vicinity of a crack tip, the general fracture mechanics concept often employed for isotropy of utilizing stresses which are valid away from the crack with distance measurements is extended to orthotropy. Specifically, stress intensity factors, KI and KII, for inclined cracks are determined here in a uniaxially-loaded orthotropic graphite–epoxy composite using measured temperatures and least-squares. An advantageous novel technique for evaluating the thermo-mechanical coefficients is also implemented by commingling numerical and measured information. The through cracks are inclined at either 85 or 45 with respect to the load, the latter also being the strong/stiff composite direction. Retaining higher-order terms in the stress representations enables using measured temperatures away from the crack. The present method of determining the two thermo-mechanical coefficients circumvents the challenges encountered when attempting to evaluate the largest thermo-mechanical coefficient from uniaxial coupons since this coefficient typically occurs in the weakest direction of the composite.
Key Words: cracks • fracture mechanics • LEFM • finite element method • leastsquares • stress intensity factors • thermoelasticity • thermoelastic stress analysis (TSA)
Journal of Composite Materials, Vol. 37, No. 22,
2011-2025 (2003) |
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