References
- Baran MC, Graham AH, Davala AB, Causton RJ, Schade C: A superior sinter hardenable material’, Proc. Int. Conf. on ‘Powder metallurgy & particulate materials’, Vancouver, BC, Canada, June 1999, Metal Powder Industries Federation, 73–80.
- James WB: ‘What is sinter hardening’, Proc. Int. Conf. on ‘Powder metallurgy & particulate materials’, Las Vegas, NV, USA, May–June 1998, Metal Powder Industries Federation, 43–53.
- Engström U, McLelland J, Maroli B: ‘Effect of sinter-hardening on the properties of high temperature sintered PM steels’, Proc. PM2TEC 2002, Orlando, FL, USA, June 2002, Metal Powder Industries Federation, 67–73.
- Maroli B, Berg S, Larsson M, Hauer I: ‘Performance of sinter hardened P/M steels’, Proc. EUROMAT 2001, Rimini, Italy, June 2001, Associazione Italiana di Metallurgia, 45–51.
- Schmidt M, Thorne P, Engström U, Gabler J, Jesberger TJ, Feldbauer S: ‘Effect of sintering time and cooling rate on sinter hardenable materials’, Proc. PM2TEC 2004 World Cong. on ‘Powder metallurgy & particulate materials, Chicago, IL, USA, June 2004, Metal Powder Industries Federation, 31–38.
- Larsson M, Berg S, Maroli B: ‘Properties of Cr-alloyed PM materials’, Proc. 4th Int. Latin Conf. on ‘Powder technology’, Guarujá, Brazil, November 2003, Brazilian Ceramic Association, 25–31.
- Bocchini GF, Rivolta B, Silva G, Poggio E, Pinasco MR, Ienco MG: ‘Microstructural and mechanical characterization of some sinter hardening alloys and comparisons with heat treated PM steels’, Powder Met., 2004, 47, 343–351.
- Chagon F, Trudel Y: ‘Effect of density on mechanical properties of sinter hardened P/M materials’, in ‘Advances in powder metallurgy and particulate materials’, (, Cadle T, Narasimhan K S), 211–220; 1996, Princeton, NJ, Metal Powder Industries Federation.
- Rui-Jin G: ‘Low alloy steels for sinter hardening’, J. Powder Metall. Int., 2003, 13, 1–5.
- Hironori S, Masaaki S, Masaki Y, Yoshikazu S: ‘Sinter hardening properties of pre-alloyed powder’, in ‘Advances in powder metallurgy & particulate materials’, (ed. H. Ferguson and D. T. Whychell Sr.), 125–136; 2000, Princeton, NJ, Metal Powder Industries Federation.
- Chawala N, Murphy TF, Narasimhan KS, Koopman M, Chawala KK: ‘Axial fatigue behavior of binder-treated versus diffusion alloyed powder metallurgy steels’, Mater. Sci. Eng. A, 2001, A308, 180–188.
- Xiao Z.-Y, Zhang J.-H, Wu Y.-B, Wen L.-P, Li Y.-Y: ‘Influence of sintering parameters on tensile strength of warm compacted Fe–2Ni–2Cu–1Mo–1C material’, Chin. J. Nonferr. Met., 2006, 168, 1326–1330.
- Engström U, Frykholm R, Milligan D, Warzel R: ‘Cost effective materials for sinter hardening applications’, Proc. PM2008, Washington, DC, USA, June 2008, Metal Powder Industries Federation, 156–162.
- Fillari G, Causton R, Lawley A: ‘Effect of cooling rates during sinter hardening’, Proc. PM2TEC 2003, Las Vegas, NV, USA, June 2003, Metal Powder Industries Federation, 215–221.
- Chagnon F, Gagne M: ‘Effect of graphite and Cu concentrations and post sintering cooling rate on properties of sinter hardened materials’, in ‘Advances in powder metallurgy & particulate materials’, 52–59; 2000, Princeton, NJ, Metal Powder Industries Federation.
- Chagnon F, Gagne M: ‘Dimensional control of sinter hardened P/M components’, Proc. PM2TEC 2001, New Orleans, LA, USA, May 2001, Metal Powder Industries Federation, 43–52.