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Powder Metallurgy Volume 42, 1999 - Issue 2
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Regular Papers

Supersolidus liquid phase sintering of high speed steels: Part 3: computer aided design of sinterable alloys

C.S. WrightThe Engineering Materials Research GroupDepartment of Mechanical and Medical Engineering, University of Bradford, Bradford, BD7 1DP , UK
,
M. YouseffiThe Engineering Materials Research GroupDepartment of Mechanical and Medical Engineering, University of Bradford, Bradford, BD7 1DP , UK
,
A.S. WronskiThe Engineering Materials Research GroupDepartment of Mechanical and Medical Engineering, University of Bradford, Bradford, BD7 1DP , UK
,
I. AnsaraINPGBP 75, St Martin d'Heres, 38402, France
,
M. Durand-CharreINPGBP 75, St Martin d'Heres, 38402, France
,
J. MascarenhasINETI, Lisbon, Portugal
,
M.M. OliveiraINETI, Lisbon, Portugal
,
F. LemoissonEcole des Mines de Paris, Centre des Materiaux, Evry, 91003, France
&
Y. BienvenuEcole des Mines de Paris, Centre des Materiaux, Evry, 91003, France
 show all
Pages 131-146 | Published online: 19 Jul 2013

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Tianxiang Zheng, Wanqin Li, Wentao Qi, Zhibin Xia, Qiang Li, Zhe Shen, Yifeng Guo, Yunbo Zhong, Hui Wang & Qiuliang Wang. (2021) Morphology transition of eutectic carbide assisted by thermoelectric magnetic force during the directional solidification of M2 high-speed steel. Ironmaking & Steelmaking 48:7, pages 885-892.
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D. Sivaprahasam, S. B. Chandrasekhar, K. Murugan & K. V. P. Prabhakar. (2020) Microstructure and mechanical properties of M62 high-speed steel powder consolidated by high-temperature gas extrusion. Materials Research Innovations 24:1, pages 52-57.
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A A S Abosbaia, S C Mitchell, M Youseffi & A S Wronski. (2011) Liquid phase sintering, heat treatment and properties of ultrahigh carbon steels. Powder Metallurgy 54:5, pages 592-598.
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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 (16)

Rangasayee Kannan & Peeyush Nandwana. (2023) Predicting Sintering Window of Binder Jet Additively Manufactured Parts Using a Coupled Data Analytics and CALPHAD Approach. Integrating Materials and Manufacturing Innovation.
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Tesfaye T. Molla. (2023) Computational Efficient Modeling of Supersolidus Liquid Phase Sintering in Multi-component Alloys for ICME Applications. Integrating Materials and Manufacturing Innovation 12:2, pages 105-117.
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T. T. Molla, A. Atthapreyangkul & G. B. Schaffer. (2022) Computational Alloy Design for Process-Related Uncertainties in Powder Metallurgy. Integrating Materials and Manufacturing Innovation 11:2, pages 172-186.
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K. H. Chuang & K. S. Hwang. (2010) Preservation of Geometrical Integrity of Supersolidus-Liquid-Phase-Sintered SKD11 Tool Steels Prepared with Powder Injection Molding. Metallurgical and Materials Transactions A 42:7, pages 1896-1906.
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Ruidi Li, Yusheng Shi, Jinhui Liu, Zhan Xie & Zhigang Wang. (2009) Selective laser melting W–10 wt.% Cu composite powders. The International Journal of Advanced Manufacturing Technology 48:5-8, pages 597-605.
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V.P. Arunachalam, S. Arunachalam & Tom Page. (2009) Property Characterisation of Cryogenically Treated Al-SiC Composites Fabricated by Powder Metallurgy. i-manager's Journal on Future Engineering and Technology 4:4, pages 6-15.
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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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Tamara Velikanova, Mikhail Turchanin, Tatyana Dobatkina & Tatyana Velikanova. 2008. Iron Systems, Part 2. Iron Systems, Part 2 165 229 .
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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P. Romano, F.J. Velasco & J.M. Torralba. (2007) Starch Consolidation as a New Process for Manufacturing Powder Metallurgy High-Speed Steels. Metallurgical and Materials Transactions A 38:1, pages 159-168.
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João M.G. Mascarenhas, Manuela Oliveira & C. Steven Wright. (2006) Effect of Vanadium and Carbon Content on the Sinterability of Water Atomised High Speed Steel Powders. Materials Science Forum 514-516, pages 529-533.
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C. Steven Wright, M. Youseffi, S.P. Akhtar, T.H.C. Childs, C. Hauser & P. Fox. (2006) Selective Laser Melting of Prealloyed High Alloy Steel Powder Beds. Materials Science Forum 514-516, pages 516-523.
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V. Trabadelo, S. Giménez, T. Gómez-Acebo & I. Iturriza. (2005) Critical assessment of computational thermodynamics in the alloy design of PM high speed steels. Scripta Materialia 53:3, pages 287-292.
Crossref
M M Dewidar, K W Dalgarno & C S Wright. (2005) Processing conditions and mechanical properties of high-speed steel parts fabricated using direct selective laser sintering. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 217:12, pages 1651-1663.
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P. Muro, S. Gimenez & I. Iturriza. (2002) Sintering behaviour and fracture toughness characterization of D2 matrix tool steel, comparison with wrought and PM D2. Scripta Materialia 46:5, pages 369-373.
Crossref
Z.Y. Liu, N.H. Loh, K.A. Khor & S.B. Tor. (2001) Mechanical alloying of TiC/M2 high speed steel composite powders and sintering investigation. Materials Science and Engineering: A 311:1-2, pages 13-21.
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