Mechanical Properties of Bone

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Cowin, Stephen C.¹ (ed)

Mechanical Properties of Bone

American Society of Mechical Engineers; New York, NY; 1981

The Joint ASME-ASCE Applied Mechnics, Fluids Engineering and Bioengineering Conference; June 22-24, 1981; Boulder, CO

Affiliations

¹Tulane University
Links

OCLC: 8169799

Table of Contents (15)

Page	Entry	Times Cited	Times Cited (no self-citations)
1	Cowin, S. C. Introduction to the symposium on the mechanical properties of bone	1	1
13	Currey, J. D. What is bone for? property–function relationships in bone	6	5
27	Roesler, H. Some historical remarks on the theory of cancellous bone structure (Wolff's Law)	39	39
43	Hayes, W. C.; Snyder, B. Toward a quantitative formulation of Wolff's Law in trabecular bone	46	44
69	Churches, A. E.; Howlett, C. R. The response of mature cortical bone to controlled time-varying loading	24	24
81	Carter, D. R.; Harris, W. H.; Vasu, R.; Caler, W. E. The mechanical and biological response of cortical bone to in vivo strain histories	33	27
93	Lanyon, L. E. The measurement and biological significance of bone strain in vivo	13	12
107	Woo, S. L.-Y. The relationships of changes in stress levels on long bone remodeling	7	7
131	Van Buskirk, W. C.; Ashman, R. B. The elastic moduli of bone	51	49
145	Torzilli, P. A.; Burstein, A. H.; Takebe, K.; Zika, J. C.; Heiple, K. G. The material and structural properties of maturing bone	7	7
163	Bonfield, W. Mechanisms of fracture in bone	2	2
171	Katz, J. Lawrence Composite material models for cortical bone	44	42
185	Piekarski, K. Mechanically enhanced perfusion of bone	9	9
193	Cowin, S. C. Continuum models of the adaptation of bone to stress	11	9
211	Huiskes, R.; Janssen, J. D.; Slooff, T. J. A detailed comparison of experimental and theoretical stress-analyses of a human femur	31	27