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Powder Metallurgy Volume 32, 1989 - Issue 4
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Articles

Sintering Behaviour of T42 Water Atomised High Speed Steel Powder Under Vacuum and Industrial Atmospheres with Free Carbon Addition

R.H. Palma
,
V. Martínez
&
J. J. Urcola
Pages 291-299 | Published online: 19 Jul 2013

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Junhao Yang, Rutie Liu, Xiang Xiong, Huaizhuang Luan, Yanrong Hao, Baozhen Yang & Jie Chen. (2022) Microstructure and mechanical properties of high carbon M2 powder metallurgy high-speed steel prepared by the carbide addition. Powder Metallurgy 65:5, pages 403-412.
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H. Borgström & L. Nyborg. (2006) Effect of vacuum annealing and nitrogen alloying on gas atomised M4 high speed steel powder. Powder Metallurgy 49:1, pages 48-56.
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C.S. Wright, A.S. Wronski & I. Iturriza. (2000) Development of robust processing routes for powder metallurgy high speed steels. Materials Science and Technology 16:9, pages 945-957.
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Articles from other publishers (18)

Gemma Herranz. 2019. Handbook of Metal Injection Molding. Handbook of Metal Injection Molding 281 329 .
C. García, F. Martín, G. Herranz, C. Berges & A. Romero. (2018) Effect of adding carbides on dry sliding wear behaviour of steel matrix composites processed by metal injection moulding. Wear 414-415, pages 182-193.
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Weijun Shen, Bo Nan, Weilin Wang, Linping Yu, Qiankun Zhang, Yuehui He, Xiaolin Huang & Guozhu Yuan. (2018) In situ synthesis and strengthening of ultra high-carbon martensitic stainless steels in addition of LaB6. Journal of Alloys and Compounds 738, pages 363-371.
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Weijun Shen, Linping Yu, Zhi Li, Yuehui He, Qiankun Zhang, Huibin Zhang, Yao Jiang & Nan Lin. (2017) In situ synthesis and strengthening of powder metallurgy high speed steel in addition of LaB6. Metals and Materials International 23:6, pages 1150-1157.
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C. Garc?a, A. Romero, G. Herranz, Y. Blanco & F. Martin. (2016) Effect of vanadium carbide on dry sliding wear behavior of powder metallurgy AISI M2 high speed steel processed by concentrated solar energy. Materials Characterization 121, pages 175-186.
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Dan Zhang, Zhi Li, Lang Xie, Yifeng Xiao & Fucheng Yin. (2015) Powder metallurgy of high speed-steel produced by solid state sintering and heat treatment. International Journal of Materials Research 106:8, pages 870-876.
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G. Herranz, A. Romero, V. de Castro & G.P. Rodríguez. (2013) Development of high speed steel sintered using concentrated solar energy. Journal of Materials Processing Technology 213:12, pages 2065-2073.
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G. Herranz. 2012. Handbook of Metal Injection Molding. Handbook of Metal Injection Molding 265 304 .
S. Giménez, C. Zubizarreta, V. Trabadelo & I. Iturriza. (2008) Sintering behaviour and microstructure development of T42 powder metallurgy high speed steel under different processing conditions. Materials Science and Engineering: A 480:1-2, pages 130-137.
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Henrik Borgstr?m & Lars Nyborg. (2007) Liquid Phase Sintering of Ferrous Powder Metallurgical Materials. Journal of Iron and Steel Research, International 14:5, pages 70-76.
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Wolfgang A. Kaysser & Wolfgang Weise. 2003. Ullmann's Encyclopedia of Industrial Chemistry. Ullmann's Encyclopedia of Industrial Chemistry.
Anand Lal, Ronald G. Iacocca & Randall M. German. (1999) Densification during the supersolidus liquid-phase sintering of nickel-based prealloyed powder mixtures. Metallurgical and Materials Transactions A 30:8, pages 2201-2208.
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M. Manuela Oliveira. (1994) High speed steel based materials for cutting tools. Metal Powder Report 49:11, pages 32-35.
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. (1992) Liquid phase sintering and heat treatment of T12 high speed steels. Metal Powder Report 47:6, pages 34-40.
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S. Jauregi, F. Fernandez, R. H. Palma, V. Martinez & J. J. Urcola. (1992) Influence of atmosphere on sintering of T15 and M2 steel powders. Metallurgical Transactions A 23:2, pages 389-400.
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R. H. Palma, I. Urrutibeaskoa, V. Mart�nez & J. J. Urcola. (1992) Metallographic changes in the sintering of grade T high speed steels in an industrial atmosphere and vacuum. Journal of Materials Science 27:8, pages 2026-2034.
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J. D. Bolton, A. J. Gant & R. J. M. Hague. (1991) Liquid-phase sintering of high-speed steels. Journal of Materials Science 26:19, pages 5203-5211.
Crossref
V. Martinez, R. Palma & J. J. Urcola. (1990) The relation of hardness to toughness and retained austenite content in N2-H2-CH4 sintered T6, T15 and T42 high-speed steels. Journal of Materials Science 25:7, pages 3359-3367.
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