13th International Conference on Fracture June 16–21, 2013, Beijing, China -10- hydroxyapatite during compressive loading in bovine bone. Acta Biomater., 8 (2012) 2747–2758. [13] J.D. Almer, S.R. Stock. Internal strains and stresses measured in cortical bone via high-energy X-ray diffraction. J Struct Biol., 152 (2005) 14–27. [14] K. Fujisaki, M. Todoh, A. Niida, et al. Orientation and deformation of mineral crystals in tooth surfaces. J Mech Behav Biomed Mater, 10 (2012), 176-182. [15] R.M. Jones. Mechanics of Composite Materials, Second edition. Taylor&Francis, Inc., Philadelphia, PA, 1999. [16] B. Bar-On, H.D. Wagner. Elastic modulus of hard tissues. J. Biomech. 45(2012a), 672–678. [17] P.J. Withers, W.M. Stobbs, O.B. Pedersen. The application of the Eshelby method of internal stress determination to short fibre metal matrix composites. Acta Metallurgica. 37 (1989) 3061-3084. [18] Y. Takao, M. Taya. The effect of variable fiber aspect ratio on the stiffness and thermal-expansion coefficients of a short fiber composite. J Compos Mater., 21 (1987) 140-156. [19] Q.H. Qin, M.V. Swain. A micro-mechanics model of dentine mechanical properties. Biomaterials, 25 (2004) 5081-5090. [20] B. Huo. An inhomogeneous and anisotropic constitutive model of human dentin. J Biomech, 38 (2005) 587-594. [21] A.M. Korsunsky, N. Baimpas, X. Song, et al. Strain tomography of polycrystalline zirconia dental prostheses by synchrotron X-ray diffraction. Acta Mater, 59 (2011) 2501-2513. [22] A.P. Hammersley. "FIT2D: An Introduction and Overview". ESRF Internal Report1997. [23] M. Al-Jawad, A. Steuwer, S.H. Kilcoyne, 2D mapping of texture and lattice parameters of dental enamel, Biomaterials. 28 (2007) :2908-2914. [24] T. Tanaka, N. Yagi, T. Oht, et al. Evaluation of the distribution and orientation of remineralized enamel crystallites in subsurface lesions by X-Ray diffraction. Caries Res, 44 (2010) 253-259 [25] W. Tesch, T. Vandenbos, P. Roschgr, et al. Orientation of mineral crystallites and mineral density during skeletal development in mice deficient in tissue nonspecific alkaline phosphatase. J Bone Miner Res, 18 (2003) 117-125. [26] W. Tesch, N. Eidelman, P. Roschger, et al. Graded microstructure and mechanical properties of human crown dentin. Calcified Tissue Int., 69 (2001) 147-57. [27] A. Nanci. Ten Cate’s Oral Histology: Development, Structure and Function. MosbyInc, St. Louis, Missouri, 2003. [28] S. Habelitz, S.J. Marshall, G.W. Marshall Jr, et al. Mechanical properties of human dental enamel on the nanometre scale. Arch Oral Biol., 46 (2001) 173-183. [29] T.W. Clyne, P.J. Withers. An introduction to metal matrix composites. First paperback edition 1995. ed. Cambridge: Cambridge University Press; 1993. [30] T.W. Chou, C.T. Sun. Nanocomposites. In: Hyer M, W, editor.: DEStech Inc; 2012. [31] J.M. Powers, J.W. Farah. Apparent Modulus of Elasticity of Dental Amalgams. J Dent Res, 54 (1975) 902. [32] A. Öchsner, W. Ahmed, Biomechanics of Hard Tissues, John Wiley & Sons, 2011
RkJQdWJsaXNoZXIy MjM0NDE=