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Symposium on ‘PM Alloys and Properties’ (19–21 November 1973)

THE EFFECT OF PHOSPHORUS ADDITIONS ON THE TENSILE, FATIGUE, AND IMPACT STRENGTH OF SINTERED STEELS BASED ON SPONGE IRON POWDER AND HIGH-PURITY ATOMIZED IRON POWDER

Pages 374-386 | Published online: 07 Nov 2014

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S. K. Mukherjee, A. Kumar & G. S. Upadhyaya. (1985) Effect of Fe2P additions on corrosion behaviour of ferritic stainless steel composite compacts containing 6 vol.-%Al2O3 . British Corrosion Journal 20:1, pages 41-44.
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T. S. Eyre & R. K. Walker. (1976) Wear of Sintered Metals. Powder Metallurgy 19:1, pages 22-30.
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P. G. Arbstedt. (1976) Alloy systems developed for pressing and sintering in the ferrous field. Metals Technology 3:1, pages 214-228.
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Göran Wastenson. (1975) METHODS OF EXTENDING THE APPLICABILITY OF SINTERED STEELS. Powder Metallurgy 18:35, pages 124-149.
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Articles from other publishers (21)

Iman Ahadi Akhlaghi, Mehdi Salkhordeh Haghighi, Saeed Kahrobaee & Milad Hojati. (2020) Prediction of chemical composition and mechanical properties in powder metallurgical steels using multi-electromagnetic nondestructive methods and a data fusion system. Journal of Magnetism and Magnetic Materials 498, pages 166246.
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Yoo-Young Kim & Kwon-Koo Cho. (2020) Effect of Phosphorus Addition on Microstructure and Mechanical Properties of Sintered Low Alloy Steel. Journal of Korean Powder Metallurgy Institute 27:1, pages 31-36.
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S. K. Chaurasia, Ujjwal Prakash, Vikram Dabhade & S. K. Nath. (2018) Effect of Phosphorus Addition on Dry Sliding Behavior of Fe–P Alloys Prepared by Powder Metallurgy. Metallography, Microstructure, and Analysis 7:3, pages 347-355.
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Herbert Danninger, Vassilka Vassileva & Christian Gierl-Mayer. (2017) Embrittling Components in Sintered Steels: Comparison of Phosphorus and Boron. Powder Metallurgy Progress 17:1, pages 47-64.
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S. K. Chaurasia, Ujjwal Prakash & Vikram Dabhade. (2017) Effect of Phosphorus on Microstructure and Mechanical Properties of Iron-Based Alloys Processed Through Powder Forging. Metallography, Microstructure, and Analysis 6:6, pages 561-568.
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Shanquan Jia, Zhiyu Xiao, Jun Wang, Shuo Yang, Hangjian Guan & Quanli Zhu. (2016) Microstructure and mechanical properties of nonmagnetic Fe-25Mn-xCu-C steels by super solidus liquid phase sintering. Materials Research Express 3:11, pages 116502.
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B. Üregen, C. Gierl-Mayer & H. Danninger. (2016) Phosphorus in Sintered Steels: Effect of Phosphorus Content and P Carrier in Sintered Steel Fe-C-P. Powder Metallurgy Progress 16:1, pages 1-13.
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W. Brian James. 2015. Powder Metallurgy. Powder Metallurgy 295 310 .
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Wen-Fung Wang. (2005) Effect of alloying elements and processing factors on the microstructure and hardness of sintered and induction-hardened Fe–C–Cu alloys. Materials Science and Engineering: A 402:1-2, pages 92-97.
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Henri Cohrt & Martin Enders. 2003. Ullmann's Encyclopedia of Industrial Chemistry. Ullmann's Encyclopedia of Industrial Chemistry.
P. Beiss. (2004) Dauerfestigkeit von Sinterwerkstoffen. Materialwissenschaft und Werkstofftechnik 17:3, pages 89-98.
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G.S. Upadhyaya & S.K. Mukherjee. (1985) Sintered 434L ferritic stainless steels. Materials & Design 6:6, pages 323-327.
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S.K. Mukherjee & G.S. Upadhyaya. (1985) Mechanical behaviour of sintered ferritic stainless steel-Al2O3 particulate composites containing ternary additions. Materials Science and Engineering 75:1-2, pages 67-78.
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S.K. Mukherjee & G.S. Upadhyaya. (1985) Corrosion behaviour of sintered 434L ferritic stainless steel-Al2O3 composites containing phosphorus. Corrosion Science 25:7, pages 463-470.
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Randall M. GermanRandall M. German. 1985. Liquid Phase Sintering. Liquid Phase Sintering 201 221 .
Randall M. GermanRandall M. German. 1985. Liquid Phase Sintering. Liquid Phase Sintering 157 179 .
S. V. Muchnik. (1984) Phosphorus-containing sintered alloys (review). Soviet Powder Metallurgy and Metal Ceramics 23:12, pages 915-921.
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S. V. Muchnik, V. G. Ivanchenko, V. B. Chernogorenko & K. A. Lynchak. (1979) Reaction between nickel and phosphorus powders under combustion conditions. Soviet Powder Metallurgy and Metal Ceramics 18:6, pages 357-361.
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G. Zapf. (2004) Das Sinterformteil – Herstellung Eigenschaften – und sein Einsatz zur Einsparung von Rohstoffen und Energie in der verarbeitenden Industrie. Materialwissenschaft und Werkstofftechnik 10:6, pages 213-220.
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G. Zapf. (2004) Europäische Beiträge zur Entwicklung der Legierungstechnik bei der Herstellung von Sinterformteilen. Materialwissenschaft und Werkstofftechnik 6:11, pages 377-384.
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