L. Boniface, S. L. Ogin, and P. A. Smith, Strain Energy Release rates and the Fatigue Growth of Matrix Cracks in Model Arrays in Composite Laminates. Proc. R. Soc. Lond. A 432 (1991) 427--444.  Home/Search   Document Not in Database   Summary   Related Articles

.... existing microcracks [32, 35, 38, 79] Such observations suggest that the stress intensity factor or energy release rate for the propagating microcrack is independent of the length of the microcrack and only a function of the space between existing microcracks where the microcrack is growing [38, 77, 79, 82]. Microcracks also form as a function of cycle number during thermal cycling of laminates [1, 16, 55, 56, 57, 58, 66 69, 85, 86] Like mechanical fatigue, the typical experiment is to count the number of microcracks as a function of cycle number. Although the driving forces for fatigue damage in ....

L. Boniface, S. L. Ogin, and P. A. Smith, Strain Energy Release rates and the Fatigue Growth of Matrix Cracks in Model Arrays in Composite Laminates. Proc. R. Soc. Lond. A 432 (1991) 427--444.

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