Modeling and investigation of the effect of supersolidus liquid phase sintering variables on physical properties and Mechanics of Cu28Zn alloy

Abstract

In this research, rice pre-alloy powder with Cu28Zn composition was produced by water vaporization method, then under 600MPa pressure.
In order to investigate the effect of the effective parameters on the ignition of 4, based on the experimental design, the central compound 3 was concentrated. From the answer procedure method
used. Also, temperature, time and atmosphere of ignition were considered as variables. Each of the variables in 5 levels for
The experiments were designed by the software. Sintering density and impact strength to obtain mathematical relationships between
At the confidence level of 95% using 5, the ignition variables were measured and calculated. To evaluate mathematical relationships from analysis of variance
became. Finally, the optimal state was predicted in the conditions of the highest density and impact strength.

Keywords

References

1- R. M. German, "Liquid phase sintering",
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2- P. Murley and R. M. German, "Supersolidus
sintering of coarse powders and its application
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powder metallurgy, pp. 103-120, 1989.
3- R. Tandon, Y. Liu and R. M. German, "Role
of initial powder characteristics in supersolidus
liquid phase sintering", Advances in Powder
Metallurgy and Particulate Materials, 3: pp.
251-266, 1994.
4- R. Tandon, Y. Liu and R. M. German,
"Application of supersolidus liquid phase
sintering to high density processing of
prealloyed powders", Advances in Powder
Metallurgy & Particulate Materials, 2: pp. 5,
1995.
5- Y.Liu, R. Tandon and R. M. German,
"Advanced sintering technology for prealloyed
powders", Advances in Powder Metallurgy and
Particulate Materials, 1: pp. 4, 1995.

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History

  • Receive Date: 17 December 2015
  • Accept Date: 17 December 2015

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