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Moore, T L A; O'Brien, F J; Gibson, L J (2004) Creep does not contribute to fatigue in bovine trabecular bone. J Biomech Eng 126:321-9
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Moore, Tara L; Gibson, Lorna J (2003) Fatigue microdamage in bovine trabecular bone. J Biomech Eng 125:769-76
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Moore, Tara L; Gibson, Lorna J (2003) Fatigue of bovine trabecular bone. J Biomech Eng 125:761-8
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Arthur Moore, T L; Gibson, L J (2002) Microdamage accumulation in bovine trabecular bone in uniaxial compression. J Biomech Eng 124:63-71
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Makiyama, A M; Vajjhala, S; Gibson, L J (2002) Analysis of crack growth in a 3D Voronoi structure: a model for fatigue in low density trabecular bone. J Biomech Eng 124:512-20
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Moore, T L; Gibson, L J (2001) Modeling modulus reduction in bovine trabecular bone damaged in compression. J Biomech Eng 123:613-22
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Lee, T C; Arthur, T L; Gibson, L J et al. (2000) Sequential labelling of microdamage in bone using chelating agents. J Orthop Res 18:322-5
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Vajjhala, S; Kraynik, A M; Gibson, L J (2000) A cellular solid model for modulus reduction due to resorption of trabeculae in bone. J Biomech Eng 122:511-5
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Bowman, S M; Gibson, L J; Hayes, W C et al. (1999) Results from demineralized bone creep tests suggest that collagen is responsible for the creep behavior of bone. J Biomech Eng 121:253-8
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Bowman, S M; Guo, X E; Cheng, D W et al. (1998) Creep contributes to the fatigue behavior of bovine trabecular bone. J Biomech Eng 120:647-54
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Showing the most recent 10 out of 11 publications
