Paper Titles

A Preliminary Study of the Development of 9Cr Fe-Base ODS Alloys: The Effects of Minor Elements and Cooling Rate
p.617

Fabrication of Cordierite Honeycomb from Fly Ash
p.621

Hardenability of Low Alloy Sintered Mn Steels
p.625

Influence of Tempering Temperature and Microstructure on Wear Properties of Low Alloy PM Steel with 1-2 % Ni Addition
p.629

Sinter-Bonding of Iron Based Compacts Containing P and Cu
p.633

Study for the Development of Fe-NbC Composites by Advanced PM Techniques
p.637

An Investigation on Elongation-Porosity Relation in Sintered 17-4 PH Stainless Steel
p.645

Application Experiences in Powder Compaction of Iron Powder - Influence of Tool Material on Tool Life
p.649

Capabilities of Two Chromium Powder Metallurgy Steels for High Performance Applications at Conventional Sintering Temperatures
p.653

HomeMaterials Science ForumMaterials Science Forum Vols. 534-536Sinter-Bonding of Iron Based Compacts Containing P...

Sinter-Bonding of Iron Based Compacts Containing P and Cu

Article Preview

Abstract:

The sinter-bonding behavior of iron based powder mixtures was investigated. To produce the green compacts to be joined the following powders based on Höganäs AB grade NC 100.24 plain iron powder were used: NC 100.24 as delivered, PNC 30, PNC 60 and NC 100.24 + 4%Cu powder mixtures. Dimensional behaviour of all those materials during the sintering cycle was monitored by dilatometry. Simple ring shaped specimens as the outer parts and cylindrical as the inner parts were pressed. The influence of parts’ composition on joining strength was established. Diffusion of alloying elements: copper and phosphorous, across the bonding surface was controlled by metallography, SEM and microanalysis.

You might also be interested in these eBooks

Progress in Powder Metallurgy

Info:

Periodical:

Materials Science Forum (Volumes 534-536)

Pages:

633-636

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.534-536.633

Citation:

Cite this paper

Online since:

January 2007

Authors:

Tadeusz Pieczonka, Jan Kazior

Keywords:

Bonding Strength, Dilatometry, Sinter-Diffusion Bonding

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

[1] J.A. Hamill, Jr., Int. Journal of Powder Metallurgy, vo1. 27, 4, 1991, 363-372.

[2] J.A. Hamill, Jr., Welding Journal, vol. 72, 2, 1993, 37-44.

[3] P. Beiss, Powder Metallurgy, vol. 32, 4, 1989, 277-284.

[4] M.G. McKimpson, Journal of Metals, 1994, 6, 40.

[5] T. Pieczonka: Rudy i Metale NieŜelazne, (in Polish), vol. 48, 2003, 435-448.

[6] R.M. German, Powder Metallurgy of Iron and Steel, J. Wiley & Sons, Inc., New York, (1999).

[7] A. Salak, Ferrous Powder Metallurgy, Cambridge International Sci. Publ., (1995).

[8] T. Tabata, S. Masaki, Int. Journal of Powder Metallurgy and Powder Technology, vol. 15, 3, 1979, 239-244.

[9] H. Akutsu, M. Iijima, Modern Developments in Powder Metallurgy, vol. 16, 1985, Ed. E.N. Aqua, C.I. Whitman, MPIF, 195-208.

[10] T. Tabata, S. Masaki, H. Sizzuki: Int. Journal of Powder Metallurgy, vol. 25, 1, 1989, 37-41.

[11] K. Asaka, T. Hayasaka, Metal Powder Report, v. 39, 6, 1984, 347-350.

[12] J. Sakai, K. Asaka, Proc. of PM World Congress and Exhibition - Horizons of Powder Metallurgy, Düsseldorf, 1986, Ed. W.A. Kaysser, W.J. Huppmann, EPMF, Part II, 717-720.

[13] K. Okimoto, K. Izumi, T. Satoh, Y. Kato, Proc. of PM World Congress and Exhibition, Granada 1998, 357-362.

[14] S. Saritas, A. Kurt, Proc. of PM World Congress and Exhibition, Granada 1998, 363-367.

[15] Kurt, S. Saritas, Advances in Powder Metallurgy and Particulate Materials, Ed. W.B. Eisen, S. Kassam, New Orleans 2001, MPIF, vol. 6, 102-109.

[16] K. Asaka, Advances in Powder Metallurgy and Particulate Materials, New York 2000, MPIF, vol. 5, 9-19.

[17] K. Asaka, Proc. PM World Congress and Exhibition, Kyoto 2000, vol. 2, 832-835.

[18] K. Asaka, Advances in Powder Metallurgy and Particulate Materials, Las Vegas 2004, MPIF, vol. 5, 193-202.

[19] K. Asaka, T. Arakawa, T. Kamatsu, Advances in Powder Metallurgy and Particulate Materials, Proc. PM World Congress and Exhibition, Orlando 2002, MPIF, vol. 2, 103-113.

[20] G. Greetham, T. Chatterley, Proc. PM'90 World Conference on Powder Metallurgy, London 1990, vol. 1, 352-365.

[21] Ch. Thumuki, K. Ueda, H. Nakamura, K. Kondo, T. Suganuma, Society of Automotive Engineers, Technical Paper 830254, (1983).

[22] J. Kübarsepp, H. Klaasen, A. Laansoo, Proc. EURO PM'01 - European Congress and Exhibition on Powder Metallurgy, Nice 2001, vol. 1, 158-163.

[23] K. Asaka, Advances in Powder Metallurgy and Particulate Materials, Las Vegas 2004, MPIF, vol. 5, 185-192.

[24] H. Kuroki, Advances in Powder Metallurgy and Particulate Materials, Las Vegas 2004, MPIF, vol. 5, 203-213.

[25] Binary Alloys Phase Diagrams, Ed. T.B. Massalski, ASM, Metals Park, OH, (1990).