87
Hashin, Z. (1991) Composite Materials with Viscoelastic Interphase: Creep and
Relaxation, Mechanics of Materials, 11(2): 135–148.
Hill, J. R. (1948) A theory of the yielding and plastic flow of anisotropic metals. Proc.
Roy. Soc. London, 193:281-297.
Kamke, F. A. and V. Rathi (2009) Modified hybrid poplar for structural composies. In:
Proc. 4
th
European Conference on Wood Modification, Stockholm, Sweden,
April
27-29, pp 397-400.
Kamke, F. A. and L. Rautkari (2009) Modified wood veneer for structural application. In:
Proc. Fourth International Symposium on Venner Processing and Products, May
24-27, Espoo, Finland. pp 2007-212.
Kutnar A., Kamke, F. A. and M. Sernek (2008) The mechanical properties of densitfied
VTC wood relevant for structural composites. Hoz als Roh-Werkst. 66(6): 439-
446.
Sulsky, D., H. Schreyer, K.
Peterson, R. Kwok, and M. Coon (2007) Using the material
point method to model sea ice dynamics, J. Geophys. Res., 112.??
Harlow, F.H. (1964) “The Particle-in-Cell Computing Method for Fluid Dynamics in
Fundamental
Methods in Hydrodynamics,” Experimental Arithmetic, High-Speed
Computations and Mathematics, Edited by B. Alder, S. Fernbach and M.
Rotenberg,
Academic Press, pp. 319 345.
Bardenhagen, S.G., and E. M. Kober (2004) The generalized interpolation material point
method. Computer Modeling Eng. & Scie. B: 477-496.
Bardenhagen, S.G., J. U. Brackbill, and D. Sulsky (2000) The material point method for
granular materials. Computer Methods Appl. Mech. Eng. 187:529–541.
Bogren, K., Gamstedt, K., Neagu, C., Akerholm, M. and Lindstrom, M. (2008) Dynamic-
Mechanical Properties of Wood–Fiber Reinforced Polylactide:
Experimental
haracterization and Micromechanical Modeling, J. of Thermoplastic Composite
Materials, Vol. 19: 613-636.
Rathi V (2009) Bending property enhancement of wood strand composite using
viscoelastic
thermal compression
MS Thesis
Oregon State University, Corvallis,
OR.
Simo J C and T J R Hughes (1997) Computational Inelasticity. Sprinerger-Verlag, New
York.
Steiner P and Simon E (2002) The behavior of five wood species in compression. IAWA
Journal, Vol. 23 (2), pp201-211.
88
Sulsky D, Chen Z and Schreyer H L 1994
Comput. Methods Appl. Mech. Eng.
118
179-
86.
Sulsky D, Zhou S J and Schreyer H L (1995) Application of a particle-in-cell method to
solid mechanics.
Comput. Phys. Commun
87
236-52.
Sulsky D and Schreyer H K (1996) Axisymmetric form of the material
point method with
applications to upsetting and Taylor impact problems.
Comput. Methods Appl.
Mech. Eng.
139
409-29.
U.S. Department of Agriculture (1987) Wood Handbook. Agriculture Handbook No. 72,
Superintendent of Documents, Washington D.C. 466pp.
Xue, L., Borogin, O., Smith, G., and Nairn, J. (2006) Michomechanics simulation of the
viscoelastic properties of highly filled composites by the material
point method
(MPM), Modeling Simul. Matter. Sci. Eng. 14, pp 703-720.
Yadama, V., M. P. Wolcott, and L. Smith (2005) Elastic properties of wood-strand
composites with undulating strands. Composites: Part A 37: 385-392.
Zhou S (1998) The numerical prediction of material failure based on the material point
method
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