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Powder Metallurgy Volume 21, 1978 - Issue 1
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Articles

Fracture Toughness of Powder Metallurgy and Conventionally Produced High-Speed Steels

L. R. Olsson
&
H. F. Fischmeister
Pages 13-28 | Published online: 19 Jul 2013

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C. S. Wright, A. S. Wronski & M. M. Rebbeek. (1984) Strength and toughness of T42 high-speed steel. Metals Technology 11:1, pages 181-188.
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A. S. Wronski, L. B. Hussain Al-Yasiri & F. L. Jagger. (1979) Comparison of Strength and Toughness of Wrought and Directly Sintered T6 High-Speed Steel. Powder Metallurgy 22:3, pages 109-118.
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Articles from other publishers (32)

Niklas Disch, Santiago Benito, Arne Röttger & Sebastian Weber. (2023) Influence of Heat Treatment Parameters on the Carbide Morphology of PM High‐Speed Steel HS 6‐5‐3‐8. steel research international 94:6.
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Yusuf Kayali, Şükrü Talaş, M. Cemaleddin Yalçin, Milad Kul, Mustafa Yazar & Hilal Kir. (2022) Diffusion Kinetics of Boronized ASP®2012 Tool Steel Produced by Powder Metallurgy. Protection of Metals and Physical Chemistry of Surfaces 58:5, pages 1036-1043.
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Mateus Leal Arcego, Júlio César Giubilei Milan, César Edil da Costa & Elisangela Aparecida dos Santos de Almeida. (2017) Effect of Boride Layer on PM HSS AISI M2 on the Mechanisms Acting in the Transverse Rupture Strength Test. Materials Research 21:1.
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H. Berns, C. Broeckmann & D. Weichert. (1997) Fracture of hot formed ledeburitic chromium steels. Engineering Fracture Mechanics 58:4, pages 311-325.
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A.F. Plankensteiner, H.J. Böhm, F.G. Rammerstorfer, V.A. Buryachenko & G. Hackl. (1997) Modeling of layer-structured high speed steel. Acta Materialia 45:5, pages 1875-1887.
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Jerzy Pacyna. (1988) The effect of low-temperature coagulation of carbides on fracture toughness of high-speed steels. Steel Research 59:10, pages 465-468.
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A. A. Khamitov, V. K. Zamaraev & B. N. Popov. (1988) Effect of forming conditions on the properties of extruded P/M 10R6M5 steel. Soviet Powder Metallurgy and Metal Ceramics 27:9, pages 684-687.
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A. S. Wronski, M. M. Rebbeck & S. A. Amen. (1988) Fracture mechanisms and mechanics of an 18-4-1 high speed steel. Journal of Materials Science 23:6, pages 2213-2219.
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Jerzy Pacyna & Lesław Witek. (1988) The effect of carbides on fracture toughness of steels of ferritic matrix. Steel Research 59:2, pages 68-74.
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K. Yu. Sokol'chuk, Yu. M. Skrynchenko & M. R. Orlov. (1988) Fracture toughness and strenght of powder high-speed steels. Metal Science and Heat Treatment 30:1, pages 43-46.
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Sadi Karagöz & Hellmut Fischmeister. (1987) Microstructure and toughness in high speed tool steels: the influence of hot reduction and austenitization temperature. Steel Research 58:8, pages 353-361.
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Robert Riedl, Sadi Karagöz, Hellmut Fischmeister & Franz Jeglitsch. (1987) Paper, honoured with the Sir Charles Hatchett Award by the Institute of Metals, London: Developments in high speed tool steels. Steel Research 58:8, pages 339-352.
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O. E. Okorafor. (1987) Fracture toughness of M2 and H13 alloy tool steels. Materials Science and Technology 3:2, pages 118-124.
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Shigeyasu INOUE. (1987) Trends of Die Steel. Tetsu-to-Hagane 73:11, pages 1461-1470.
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Jerzy Pacyna & Adam Mazur. (1984) Effect of molybdenum on the fracture toughness of high-speed steel quenched matrix. Archiv für das Eisenhüttenwesen 55:12, pages 609-614.
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Tetsuo KATOKatsusi KUSAKA. (1984) High Alloy Powders (II). Tetsu-to-Hagane 70:6, pages 486-491.
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Bingzhe Lou & B. L. Averbach. (1983) Fracture toughness and fatigue behavior of matrix II and M-2 high speed steels. Metallurgical Transactions A 14:9, pages 1889-1898.
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H.F. Fischmeister. 1983. Specialty Steels and Hard Materials. Specialty Steels and Hard Materials 127 140 .
Chongmin Kim, A. Richard Johnson & William F. Hosford. (1982) Fracture toughness of aisi M2 high-speed steel and corresponding matrix tool steel. Metallurgical Transactions A 13:9, pages 1595-1605.
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Hellmut F Fischmeister. (2006) Powder Compaction: Fundamentals and Recent Developments. Proceedings of the Institution of Mechanical Engineers 196:1, pages 105-121.
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Karl-Heinz Zum Gahr & William G. Scholz. (2014) Fracture Toughness of White Cast Irons. JOM 32:10, pages 38-44.
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