Anisotropy in the compressive mechanical properties of bovine cortical bone and the mineral and protein constituents.
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Joanna McKittrick | Po-Yu Chen | Vlado A Lubarda | Ekaterina Novitskaya | J. McKittrick | Po-Yu Chen | E. Novitskaya | G. Hirata | V. Lubarda | Steve Lee | Ana Castro-Ceseña | Gustavo Hirata | Ana B. Castro-Ceseña | Steve Lee
[1] Stephen A. Wainwright,et al. Mechanical Design in Organisms , 2020 .
[2] J. McKittrick,et al. Compressive mechanical properties of demineralized and deproteinized cancellous bone. , 2011, Journal of the mechanical behavior of biomedical materials.
[3] J. McKittrick,et al. Kinetic studies of bone demineralization at different HCl concentrations and temperatures , 2011 .
[4] J. McKittrick,et al. Minerals Form a Continuum Phase in Mature Cancellous Bone , 2011, Calcified Tissue International.
[5] S. Kotha,et al. Correlation between longitudinal, circumferential, and radial moduli in cortical bone: effect of mineral content. , 2010, Journal of the mechanical behavior of biomedical materials.
[6] P. Hansma,et al. Localization of Phosphorylated Serine, Osteopontin, and Bone Sialoprotein on Bone Fracture Surfaces , 2009 .
[7] John Currey,et al. Measurement of the Mechanical Properties of Bone: A Recent History , 2009, Clinical orthopaedics and related research.
[8] Horst Rinne,et al. The Weibull Distribution: A Handbook , 2008 .
[9] Himadri S. Gupta,et al. Tough Lessons From Bone: Extreme Mechanical Anisotropy at the Mesoscale , 2008 .
[10] M. Potoczek. Hydroxyapatite foams produced by gelcasting using agarose , 2008 .
[11] Elliot P. Douglas,et al. Bone structure and formation: A new perspective , 2007 .
[12] P. Price,et al. The Size Exclusion Characteristics of Type I Collagen , 2007, Journal of Biological Chemistry.
[13] Thomas Seelig,et al. Fracture Mechanics: With an Introduction to Micromechanics , 2006 .
[14] C. Turner,et al. Dissociation of mineral and collagen orientations may differentially adapt compact bone for regional loading environments: results from acoustic velocity measurements in deer calcanei. , 2006, Bone.
[15] N. Sasaki,et al. Anisotropic viscoelastic properties of cortical bone. , 2004, Journal of biomechanics.
[16] K. Bowman,et al. Mechanical Behavior of Materials , 1990 .
[17] J Y Rho,et al. Anisotropic properties of human tibial cortical bone as measured by nanoindentation , 2002, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.
[18] M. Spector,et al. The ultrastructure of anorganic bovine bone and selected synthetic hyroxyapatites used as bone graft substitute materials. , 2002, Biomaterials.
[19] G. Pharr,et al. Effects of anisotropy on elastic moduli measured by nanoindentation in human tibial cortical bone. , 2001, Journal of biomedical materials research.
[20] J Y Rho,et al. Elastic properties of microstructural components of human bone tissue as measured by nanoindentation. , 1999, Journal of biomedical materials research.
[21] P Zioupos,et al. Mechanical properties and the hierarchical structure of bone. , 1998, Medical engineering & physics.
[22] J. Rho. An ultrasonic method for measuring the elastic properties of human tibial cortical and cancellous bone. , 1996, Ultrasonics.
[23] V. A. Gibson,et al. Collagen fiber organization is related to mechanical properties and remodeling in equine bone. A comparison of two methods. , 1996, Journal of biomechanics.
[24] B F McEwen,et al. Structural relations between collagen and mineral in bone as determined by high voltage electron microscopic tomography , 1996, Microscopy research and technique.
[25] J. Broz,et al. Material and compositional properties of selectively demineralized cortical bone. , 1995, Journal of biomechanics.
[26] D. Burr,et al. Contribution of collagen and mineral to the elastic anisotropy of bone , 1994, Calcified Tissue International.
[27] R. Martin,et al. The effects of collagen fiber orientation, porosity, density, and mineralization on bovine cortical bone bending properties. , 1993, Journal of biomechanics.
[28] Y. Fung,et al. Biomechanics: Mechanical Properties of Living Tissues , 1981 .
[29] W. Bonfield,et al. Anisotropy of the Young's modulus of bone , 1977, Nature.
[30] K. Heiple,et al. Contribution of collagen and mineral to the elastic-plastic properties of bone. , 1975, The Journal of bone and joint surgery. American volume.
[31] A. Burstein,et al. The Mechanical Properties of Cortical Bone , 1974 .
[32] K. Piekarski. Analysis of bone as a composite material , 1973 .
[33] J. Currey,et al. The Mechanical Properties of Bone , 1970, Clinical orthopaedics and related research.
[34] David M. Miller,et al. Handbook of Mathematical Functions With Formulas, Graphs and Mathematical Tables (National Bureau of Standards Applied Mathematics Series No. 55) , 1965 .
[35] J. McKittrick,et al. Elastic properties of cancellous bone in terms of elastic properties of its mineral and protein phases with application to their osteoporotic degradation , 2012 .
[36] D. Gross,et al. Micromechanics and homogenization , 2011 .
[37] A. Burstein,et al. The elastic and ultimate properties of compact bone tissue. , 1975, Journal of biomechanics.
[38] Burton J. Bogitsh,et al. A COMPARISON OF TWO METHODS , 1975 .
[39] W. Rieß,et al. Die Veränderungen des Kollagens bei Entwässerung mit Aceton und die Konsequenzen dieser Veränderung für die Kollagenstruktur , 1964 .
[40] W. Weibull. A Statistical Distribution Function of Wide Applicability , 1951 .