Comparison of the low-cycle fatigue properties of heavily cold-drawn copper and Cu-20%Nb
暂无分享,去创建一个
[1] C. Laird,et al. Low energy dislocation structures produced by cyclic softening , 1989 .
[2] W. Spitzig,et al. Comparison of the strengths and microstructures of Cu-20% Ta and Cu-20% Nb in situ composites , 1988 .
[3] W. Spitzig,et al. Fracture mode transitions in hydrogenated V-10at.%Ti alloys under cyclic deformation , 1988 .
[4] W. A. Spitzig,et al. Characterization of the strength and microstructure of heavily cold worked CuNb composites , 1987 .
[5] W. Spitzig,et al. A comparison of the strength and microstructure of heavily cold worked Cu-20% Nb composites formed by different melting procedures , 1987 .
[6] J. K. Lee,et al. Ductile two-phase alloys: Prediction of strengthening at high strains , 1987, Metallurgical and Materials Transactions A.
[7] T. Courtney,et al. On the strength of heavily cold worked in situ composites , 1985 .
[8] K. Herz,et al. Persistent Slipbands in Fatigued Face-Centered and Body-Centered Cubic Metals , 1979 .
[9] C. Laird,et al. History Dependence in the Cyclic Stress-Strain Response of Wavy Slip Materials , 1975 .
[10] C. Laird,et al. Cyclic stress-strain response of F.C.C. metals and alloys—II Dislocation structures and mechanisms , 1967 .
[11] C. Laird,et al. Cyclic stress-strain response of F.C.C. metals and alloys—I Phenomenological experiments , 1967 .
[12] J. Morrow. Cyclic Plastic Strain Energy and Fatigue of Metals , 1965 .
[13] N. Wadsworth. Work hardening of copper crystals under cyclic straining , 1963 .