Mechanical properties of sintered materials

M. S. Koval'chenko

doi:10.1007/bf00794920

journal article Mar 01, 1991

Mechanical properties of sintered materials

M. S. Koval'chenko

Soviet Powder Metallurgy and Metal Ceramics Vol. 30 No. 3 pp. 257-261 · Springer Science and Business Media LLC

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References

18

[1]

Yu. V. Mil'man, “Mechanical properties of sintered materials. I. Strength characteristics of sintered materials,” Poroshk. Metall., No. 1, 34–35 (1991).

[2]

Yu. V. Mil'man, R. K. Ivashchenko, and N. P. Zakharova, “Mechanical properties of sintered materials. II. Effect of porosity on the ductility of sintered alloys,” ibid., No. 3, 93–100 (1991).

[3]

M. B. Shtern, “Basic equations for densifying ductile porous bodies,” ibid., No. 4, 17–23 (1981).

[4]

V. V. Skorokhod, M. B. Shtern, and V. F. Martynova, “Theory of nonlinear-viscous and ductile (plastic) behavior of porous bodies,” ibid., No. 8, 11–17 (1988).

[5]

A. V. Laptev, “Criteria of plasticity of porous bodies,” ibid., No. 7, 12–18 (1982).

[6]

B. A. Druyanov, Applied Theory of Plasticity of Porous Bodies [in Russian], Mashinostroenie, Moscow (1989).

[7]

M. B. Shtern, “Modelling of the deformation processes in compressible materials taking pore formation into account. I. Basic equations and stressed (yield) surface,” Poroshk. Metall., No. 5, 28–34 (1989).

[8]

M. B. Shtern, “Modelling of the deformation processes in compressible materials taking pore formation into account. II. Uniaxial tensile and compressive loading of porous bodies,” ibid., No. 6, 34–39 (1989).

[9]

T. D. Shermergor, Theory of Elasticity of Microinhomogeneous Media [in Russian], Nauka, Moscow (1977).

[10]

M. S. Koval'chenko, “Theory of pulsed hot pressing of porous viscoelastoplastic bodies. II. Deformation and flow of porous bodies,” Poroshk. Metall., No. 5, 20–23 (1989).

[11]

M. S. Koval'chenko, “Theory of pulsed hot pressing of porous viscoelastoplastic bodies. IV. Hot open-die forging,” ibid., No. 4, 5–7 (1990).

[12]

M. S. Koval'chenko, “A rheological model of powder compaction,” ibid., No. 9, 100–104 (1990).

[13]

A. N. Nikolenko and M. S. Koval'chenko, “Analysis of random packing of identical particles. I. General theory,” ibid., No. 11, 38–41 (1985).

[14]

A. N. Nikolenko and M. S. Koval'chenko, “Analysis of random packing of identical particles. III. Tapping of spherical particles,” ibid., No. 1, 30–32 (1986).

[15]

A. N. Nikolenko and M. S. Koval'chenko, “Analysis of random packing of identical particles. IV. Zonal isolation in powder bodies,” No. 2, 22–26 (1986).

[16]

A. N. Nikolenko and M. S. Koval'chenko, “Structural hierarchy, levels of description, classification of models, and analysis of the densification processes of particulate materials,” ibid., No. 6, 29–33 (1989).

[17]

S. A. Firstov, Yu. N. Podrezov, L. G. Shtyka, et al., “Modelling of ductile-brittle transition in porous metallic materials under the test conditions used for evaluating their crack resistance,” ibid., No. 5, 85–92 (1990).

[18]

V. V. Skorokhod, L. A. Vermenko, O. I. Get'man et al., “Electron-optical study of the kinetics of sintering of spherical tungsten powders. I. Experimental study of the sintering process of tungsten powders,” ibid., No. 5, 11–14 (1987).

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Published: Mar 01, 1991
Vol/Issue: 30(3)
Pages: 257-261
License: View

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M. S. Koval'chenko

Cite This Article

M. S. Koval'chenko (1991). Mechanical properties of sintered materials. Soviet Powder Metallurgy and Metal Ceramics, 30(3), 257-261. https://doi.org/10.1007/bf00794920

Mechanical properties of sintered materials

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