Selection of the glide systems activated at low stresses in copper
暂无分享,去创建一个
[1] B. Pichaud,et al. {110} Slip in copper slightly deformed at room temperature , 1980 .
[2] B. Pichaud,et al. X-ray topographic analysis of a particular dislocation-dislocation interaction inducing cross-slip , 1980 .
[3] B. Pichaud,et al. Further topographic observations of zigzag stress-induced dislocations in copper crystals , 1979 .
[4] B. Pichaud,et al. On the origin of disclocations observed by X-ray topography during microdeformation tests on f.c.c. metals , 1979 .
[5] B. Pichaud,et al. Cross-slip at very low stresses in highly perfect Cu crystals , 1976 .
[6] B. Pichaud,et al. X-ray topographic observation of dislocation multiplication by cross-slip in Cu crystals , 1975 .
[7] O. Lohne. On the failure of Schmid's law , 1974 .
[8] F. Young,et al. Burgers Vector of Dislocations Generated by Small Stresses in Copper Crystals , 1972 .
[9] O. Lohne,et al. An X-Ray Topography Study of Dislocation Formation and Motion in Aluminium , 1971 .
[10] F. Young,et al. X‐Ray Topographic Study of Tensile Deformation in Nearly Perfect Copper Crystals , 1971 .
[11] John Arthur Simmons,et al. FUNDAMENTAL ASPECTS OF DISLOCATION THEORY. VOLUME II. Conference Held at Gaithersburg, Maryland, April 21--25, 1969. , 1970 .
[12] D. Vesely. The Study of Deformation of Thin Foils of Mo under the Electron Microscope , 1968 .
[13] A. Foreman,et al. XI. Dislocation energies and choice of slip plane in face-centred cubic metals , 1955 .