Stress-Strain Analysis of Single Cubic Crystals and Its Application to the Ordering of CuAu I : Paper II
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概要
- 論文の詳細を見る
A stress-strain analysis of single cubic crystals is developed which utilizes the strain data supplied by the x-ray back-reflection divergent beam method. The principal strains and their directions are determined and from the principal strains and the known elastic constants the complete stress-strain configuration is obtained. Thus the maximum magnitude and the direction of the shearing strain on a given set of crystallographic planes are obtained and the set of planes on which the maximum value of the shearing maxima occurs is also determined. From a knowledge of the stress-strain configuration, the sotred elastic energy of the crystal is deduced ; it can be partitioned into two components, that due to shearing strains and that due to a mixture of normal and shearing strains. The conditions under which the principal stress system coincides with the principal strain system are also investigated. Furthermore, a number is constructed that measures the distortion of the crystal in terms of the energy increments associated with the elastic constants. The stress-strain analysis applied to the ordering of a CuAu crystal at 125℃ corroborates quantitatively the qualitative results previously obtained by transmission electron microscopy The dependence of stored elastic energy on annealing time is determined and it is shown that the first maximum and decline are associated with the maximum and decline of coherency strains set up between the ordered CuAu I nuclei and the disordered matrix. Upon increasing the annealing time, twinning occurs to relieve the tetragonality strains introduced by the ordered CuAu I domains. The second maximum is compounded by twinning on certain (110) planes and delayed ordering on other (110) planes of the matrix. The subsequent decline of the stored elastic energy is associated with twinning on all (110) planes. The shearing stress necessary to initiate microtwinning does not exceed 7×10^8 dyn/cm^2
- 東北大学の論文
著者
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Weissmann S.
College Of Engineering Rutgers The Stale University
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Slade J.
College Of Engineering Rutgers The Stale University
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NAKAJIMA K.
Toyota Central Research and Development Labs., Inc.
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HIRABAYASHI M.
The Research Institute for Iron, Steel and Other Metals, Tohoku University
関連論文
- Stress-Strain Analysis of Single Cubic Crystals and Its Application to the Ordering of CuAu I : Paper II
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