11/28/2022 0 Comments Singlecrystal drawing![]() 〈110〉 single crystal, as compared with 〈111〉 and 〈100〉. Mean misorientation and average spacing of dislocation boundary are larger in drawn At medium strains, S bands can be observed.Īt high strains, lamellar boundaries form. The microstructure results of drawn 〈110〉 single crystal show that at low strains, it can be characterizedĪs two kinds of geometrically necessary boundaries with noncrystalline character. 〈100〉 is near the surfaceĪnd 〈111〉 is at the center. Textures is imhomogenous along the radial direction of drawn 〈110〉 single crystal copper wires. At high strains, due to shear strain, the distribution of fiber Grain subdivision of 〈110〉 single crystal is more evident than that of 〈100〉 and 〈111〉, and the textures consisting of 〈111〉Īnd 〈100〉 abruptly form in the drawn 〈110〉 single crystal. 〈100〉 single crystal copper wires have been compared with 〈110〉 and 〈111〉 single crystal copper wires. In order to analyze the effect of initial orientation on microstructure and texture of drawn copper, the results of the drawn Single crystal copper with initial orientation 〈110〉 parallel to axial direction have been investigated in the present work. By means of electron backscattering diffraction and transmission electron microscopy the microstructure and texture of drawn ![]()
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