i-manager Publications

Deformation Behaviour of Fe-0.8%C-1.0%Si-0.8%Cu Sintered P/M Steel during Powder Preform Forging

A. Rajesh Kannan*, K.S. Pandey**, S. Shanmugam***, R. Narayanasamy****, Subramaniam Arunachalam*****, Tom Page******

* Lecturer, D.M.E., Thiagarajar College of Engineering, Madurai.

** Director, Maulana Azad National Institute of Tech, Bhopal.

*** Prof., D.M.E, National Institute of Tech, Tiruchirappalli.

**** Prof., Dept of Production Engineering, National Institute of Technology, Tiruchirappalli.

***** Senior Lecturer, School of Computing and Technology, University of East London,UK.

****** Lecturer, Dept of Design & Tech, Loughborough University, Loughborough, UK.

Periodicity:February - April'2010
DOI : https://doi.org/10.26634/jfet.5.3.1145

Abstract

Cold upsetting experiments were carried out on sintered Fe-0.8%C-1.0%Si-0.8%Cu steel preforms in order to evaluate stress — strain, stress — densification and work hardening characteristics. Powder preforms of 86% theoretical density and 0.40 of initial aspect ratio were prepared using a suitable die — set assembly on a 1MN capacity hydraulic press. Sintering was carried out in an electric muffle furnace for a period of 90 minutes at 11500C. Each sintered compact was subjected to incremental compressive loading of 0.04MN under two different lubricating constraints namely nil/no and graphite lubricant till fracture appears at free surfaces. The behavior of applied stresses with strain and densification exhibits a continuous enhancement but with three different modes of responses. The first and third stage offers high resistance to deformation, whereas the second stage shows virtually steady state, deformation needed gradual increase in applied stresses but with high rate of densification. The instantaneous strain hardening exponent ni and strength co-efficient Ki of the aforementioned steel preforms were calculated and found to enhance continuously with the continuous enhancement of deformation and densification.

Keywords

Powder Forging, Applied Stresses, Strain, Densification, Work Hardening.

How to Cite this Article?

Kannan, A. R., Pandey, K. S., Shanmugam, S., Narayanasamy, R., Arunachalam, S., and Page, T. (2010). Deformation Behaviour Of Fe-0.8%C-1.0%Si-0.8%Cu Sintered P/M Steel During Powder Preform Forging. i-manager’s Journal on Future Engineering and Technology, 5(3), 54-61. https://doi.org/10.26634/jfet.5.3.1145

References

[1]. Kurt H. Miska, Powder metal parts. In: Samuel Bradbury (compiled), Introduction to Powder Metallurgy, ASM, Metals Park, Ohio, 1979: pp.1-9.

[2]. German, R.M., Powder Metallurgy Science, MPIF, Princeton, New Jersey, USA, 1994, pp. 312-331.

[3]. Gull, G.W.,” Mechanical and metallurgical properties of powder forgings”, Powder Metall. 13(26), 1970, pp.156-164.

[4]. Whang, B.B., and Kobayashi S., “Deformation characterization of powdered compacts in compaction,” Int. J. Mach. Tools Manuf. 30(2), 1990, pp.309-323.

[5]. Lee, P.W., Powder Metallurgy Applications, Advantages and Limitations. Ed.: Klar E ASM, New York, 1983.

[6]. German, R.M., Powder Metallurgy of Iron and Steel, John Wiley & Sons, Inc., New York, 1998, pp.276-279.

[7]. Kuhn, H.A., and Downey, C.L., “How flow fracture affect design of preforms for powder forging.” Int. J. of Powder Metall. and Powder Technol, Vol. 10 No. 1, 1974, pp.59-66.

[8]. Tewari, H.N., and Saran, R., “Analysis of iron powder forging,” Trans. of P.M.A.I., 12, 1985, pp.83-86.

[9]. Jha A.K., and Kumar, S., “Forging of metal powder preforms,” Int. J. Mach. Tool. Des. Res., Vol. 23 No. 4, 1983, pp.201-212.

[10]. Hausner, H.H., and Mal, M.K., Hand Book of Powder Metallurgy, Chemical, New York 1982.

[11]. Pandey, K.S., “Some investigation on the cold deformation behaviour of sintered aluminium – 4%copper alloy powder preforms,” Quart. Int. J. Powder Met. Sci. Technol., Vol. 2 No. 4, 1991, pp.35-44.

[12]. Lawley, A., “Advances in Powder Technology,” 1981. Ed. Gilbert Chin Y., ASM Materials Science Seminar, ASM, Newyork, 1982.

[14]. Antes, H.W., Processing and properties of powder forgings, Eds. Burke J.J., Weiss V., Powder Metallurgy for High Performance Applications, Syracuse university press, Syracuse, New York, 1972.

[15]. Kahlow, K.J., “Void behaviour as influenced by pressure and plastic deformation”, Institute for Metal Forming Report, Lehigh University, October 1971, pp.10- 16.

[16]. Moyer, K.H., “Measuring density of P/M materials with improved precision,” Int. J. of Powder Met. and Powder Technol., 15, 1979, pp.33-42.

	North Americas,UK, Middle East,Europe		India	Rest of world
	USD	EUR	INR	USD-ROW
Pdf	35	35	200	20
Online	35	35	200	15
Pdf & Online	35	35	400	25

Deformation Behaviour of Fe-0.8%C-1.0%Si-0.8%Cu Sintered P/M Steel during Powder Preform Forging

Abstract

Keywords

How to Cite this Article?

References

If you have access to this article please login to view the article or kindly login to purchase the article

Purchase Instant Access

Options for accessing this content: