论文信息 - Stiff lattices with zero thermal expansion and enhanced stiffness via rib cross section optimization - 字舞流文

Stiff lattices with zero thermal expansion and enhanced stiffness via rib cross section optimization

Roderic S. Lakes | R. Lakes | J. Lehman | Jeremy Lehman

[1] John A. Nelder,et al. A Simplex Method for Function Minimization , 1965, Comput. J..

[2] Roderic S. Lakes,et al. Cellular solid structures with unbounded thermal expansion , 1996 .

[3] H. E. Hunt. The mechanical strength of ceramic honeycomb monoliths as determined by simple experiments : Advanced materials , 1993 .

[4] I. S. Sokolnikoff. Mathematical theory of elasticity , 1946 .

[5] R. Lakes,et al. Stiff lattices with zero thermal expansion , 2012 .

[6] C. Woolger. Invar nickel-iron alloy : 100 years on , 1996 .

[7] R. Lakes,et al. Extreme thermal expansion, piezoelectricity, and other coupled field properties in composites with a negative stiffness phase , 2001 .

[8] B. Paul. PREDICTION OF ELASTIC CONSTANTS OF MULTI-PHASE MATERIALS , 1959 .

[9] G. Milton. The Theory of Composites , 2002 .

[10] Z. Hashin. Analysis of Composite Materials—A Survey , 1983 .

[11] R. Lakes. Cellular solids with tunable positive or negative thermal expansion of unbounded magnitude , 2007 .

[12] S. Timoshenko,et al. Analysis of Bi-Metal Thermostats , 1925 .

[13] Anthony G. Evans,et al. Concepts for structurally robust materials that combine low thermal expansion with high stiffness , 2007 .

[14] J. Cribb. Shrinkage and Thermal Expansion of a Two Phase Material , 1968, Nature.