Mathematical simulation of the initial stage of prediffusion homogenization in sintering of a powder mixture
Theory and Technology of Sintering Processes and of Heat and Chemicothermal Treatment
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KeywordsPowder Mixture Mathematical Simulation
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- 1.A. M. Gusak, S. E. Kazharskaya, and A. P. Mokrov, “The kinetics of homogenization of nonuniform alloys produced by sintering of powders,” in: Diffusion Processes in Metals [in Russian], Tula Polytech. Inst. (1982), pp. 3–10.Google Scholar
- 2.P. S. Rudman, “An x-ray diffraction method for the determination of composition,” Acta Cryst.,13, 905–909 (1960).Google Scholar
- 3.G. I. Marchuk, Methods of Computer Mathematics [in Russian], Nauka, Moscow (1980).Google Scholar
- 4.L. A. Aleshina, É. L. Vrublevskaya, A. P. Mokrov, et al., “The temperature relationship of the process of formation of a solid solution in sintering of tungsten-molybdenum powder compacts,” Fiz.-Khim. Obrab. Mater., No. 6, 111–117 (1973).Google Scholar
- 5.B. M. Veselkov, É. V. Kulmanen, L. L. Rykova, et al., “The concentration relationship of the process of formation of a solid solution in sintering of tungsten-molybdenum powder compacts,” ibid., No. 2, 132–136 (1974).Google Scholar
- 6.L. N. Larikov, V. M. Tyshkevich, and L. F. Chernaya, “Investigations of diffusion of rhenium and molybdenum in tungsten and alloys based on it,” Ukr. Fiz. Zh.,12, No. 6, 986–989 (1967).Google Scholar
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