Residual thermal stresses in two-phase alloys
Scientific-Technical Section
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Abstract
Regularities in the formation of residual thermal stresses in two-phase alloys in relation to structure and the physicomechanical properties of phases are studied. Results are given for the calculation of intergranular reaction forces in the vicinity of pores filled with binder occurring as a result of the difference in thermal expansion coefficients for the phases. The dependence of the magnitude of intergranular reaction on the percentage content of binder is analyzed.
Keywords
Thermal Expansion Thermal Stress Expansion Coefficient Thermal Expansion Coefficient Reaction Force
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Literature cited
- 1.F. S. Yasinskii, Collected Works [in Russian], Vol. 3, S.-P., Byull. Izobret. (1904).Google Scholar
- 2.H. E. Exner, “Physical and chemical nature of cemented carbides,” Int. Met. Rev., No. 4, 149–173 (1979).Google Scholar
- 3.M. Berger, Geometry [Russian translation], Vol. 3, Mir, Moscow (1984).Google Scholar
- 4.G. A. Voronin and A. E. Shilo, “Thermal stresses in materials based on an abrasive and a binder,” Sverkhtverdye Materialy, No. 5, 19–22 (1982).Google Scholar
- 5.J. Gurland, “Temperature stresses in the two-phase alloy WC-Co,” Trans. ASME,50, 1063–1071 (1958).Google Scholar
- 6.R. Bernard, “Internal stresses of hard alloy,” Trans. Indian Inst. Met., June, 69–75 (1965).Google Scholar
- 7.U. D. Kingery, Introduction to Ceramics [Russian translation], Gosstroizdat, Moscow (1967).Google Scholar
Copyright information
© Plenum Publishing Corporation 1991