Conclusions
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1.
A process has been developed for preparing wear-resistant sintered composite materials based on titanium carbide by the infiltration technique.
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2.
A study was made of the effects of particle size distribution on the wear resistance of the materials and of heat treatment temperature on the grain size.
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3.
The influence of technological factors on the properties of the materials was investigated and the optimum process conditions were determined.
Literature cited
C. G. Goetzel and L. P. Skolnick, Plansee Proc. Pergamon Press (1955).
I. L. Ellis, Trans. Am. Soc. Tool Engr. Tech. Paper No. 13 (1957).
C. G. Goetzel and J. B. Adamec, Metal Progr.,70, No. 6, 101 (1956).
H. W. Lawendel and C. G. Goetzel, AIME Regional High-Temperature Materials Conference, Cleveland, Ohio (1957).
L. P. Skolnick and C. G. Goetzel, ASTM, No. 174, 103 (1955).
A. G. Spektor, Zavod. Lab.,16, No. 2 (1950).
I. Kleis, Tr. Tallinsk. Politekhn. Inst. (1958).
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Translated from Poroshkovaya Metallurgiya, No. 6(90), pp. 53–56, June, 1970.
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Tsukerman, S.A. A wear-resistant powder metallurgical material based on titanium carbide. Powder Metall Met Ceram 9, 479–481 (1970). https://doi.org/10.1007/BF00802615
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DOI: https://doi.org/10.1007/BF00802615