X-ray diffraction characteristics of Ti1−xNbxC0.5N0.5 solid solutions
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- 1.S. S. Ordan'yan, L. G. Maskhuliya, I. B. Panteleev, and A. A. Samodurov, “The physico-chemical properties of complex Ti1−xNbxC0.5N0.5 solid solutions,” Poroshk. Metall., No. 10, 93–95 (1981).Google Scholar
- 2.S. S. Ordan'yan, L. G. Maskhuliya, and I. B. Panteleev, “The influence of sintering conditions on grain growth in complex Ti1−xNbxC0.5No.5 solid solutions,” ibid., No. 5, 61–65 (1982).Google Scholar
- 3.L. P. Makhracheva, “An investigation of the electron structure of TiC, TiN, and ZrN by the method of a strong bond in a multicenter approach,” Author's Abstract of Candidate's Thesis, Chemical Sciences, Sverdlovsk (1978).Google Scholar
- 4.V. I. Tret'yakov, Fundamentals of the Physical Metallurgy and Production Technology of Sintered Hard Alloys [in Russian], Metallurgiya, Moscow (1976).Google Scholar
- 5.S. S. Ordan'yan, I. B. Panteleeva, L. G. Maskhulina, and L. V. Kozlovskii, The Influence of Production Factors on the Process of Formation of Complex Ti1−xNbxC0.5N0.5 Solid Solutions [in Russian], Moscow (1982), Manuscript deposited in the All-Union Institute for Scientific and Technical Information, No. 6–82 Dep.Google Scholar
- 6.A. A. Rusakov, The X-Ray Diffraction of Metals [in Russian], Atomizdat, Moscow (1977).Google Scholar
- 7.Ya. D. Vishnyakov, Modern Methods of Investigation of the Structure of Deformed Crystals [in Russian], Metallurgiya, Moscow (1975).Google Scholar
- 8.L. S. Palatnik, M. Ya. Fuks, and V. M. Kosevich, The Mechanism of Formation and the Substructure of Condensed Films [in Russian], Nauka, Moscow (1972).Google Scholar
- 9.V. I. Trefilov, Yu. V. Mil'man, and S. A. Firstov, Physical Fundamentals of the Strength of Refractory Metals [in Russian], Naukova Dumka, Kiev (1975).Google Scholar
- 10.N. I. Komyak and Yu. G. Myasnikov, X-Ray Methods and Apparatus for Determination of Stresses [in Russian], Mashinostroenie, Leningrad (1972).Google Scholar
- 11.H. Dölle, “The influence of multiaxial stress states, stress gradients and elastic anisostropy on the evaluations of (regional) stresses by x rays,” J. Appl. Crystallogr.,12, 489–501 (1979).Google Scholar
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