The evolution of hardness homogeneity in commercially pure titanium processed by equal channel angular pressing (ECAP) for up to 4 passes following route C at room temperature using a die of 90° was investigate...The evolution of hardness homogeneity in commercially pure titanium processed by equal channel angular pressing (ECAP) for up to 4 passes following route C at room temperature using a die of 90° was investigated by recording the microhardness on the cross-sectional and longitudinal planes of each billet. The results show that the hardness increases significantly after the first pass although there is a region of lower hardness on the cross-section running in a band near the bottom surface of the billet, and then increases by very small amounts in subsequent passes. With increasing numbers of passes, the lower hardness region near the bottom surface disappears and the microhardness values are distributed homogeneously throughout the cross- sectional and longitudinal planes after 4 passes of ECAP. The microhardness values in the central regions of the billet are slightly lower than those of the top and bottom surfaces. The results show that good homogeneity may be achieved throughout the billets after 4 passes of ECAP following route C.展开更多
基金Funded partly by the National Natural Science Foundation of China(No.5043430)Specialized Research Fund for the Doctoral Program of Higher Education of China(No.20116120110012)the Natural Science Foundation of Shaanxi Province of China(No.2010JM6010)
文摘The evolution of hardness homogeneity in commercially pure titanium processed by equal channel angular pressing (ECAP) for up to 4 passes following route C at room temperature using a die of 90° was investigated by recording the microhardness on the cross-sectional and longitudinal planes of each billet. The results show that the hardness increases significantly after the first pass although there is a region of lower hardness on the cross-section running in a band near the bottom surface of the billet, and then increases by very small amounts in subsequent passes. With increasing numbers of passes, the lower hardness region near the bottom surface disappears and the microhardness values are distributed homogeneously throughout the cross- sectional and longitudinal planes after 4 passes of ECAP. The microhardness values in the central regions of the billet are slightly lower than those of the top and bottom surfaces. The results show that good homogeneity may be achieved throughout the billets after 4 passes of ECAP following route C.
