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Powder Metallurgy Volume 25, 1982 - Issue 2
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Articles

Mechanisms of Grain Growth in Ti(C,N)–Ni Sintered Alloys

M. Fukuhara
&
H. Mitani
Pages 62-68 | Published online: 19 Jul 2013

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RandallM. German. (2010) Coarsening in Sintering: Grain Shape Distribution, Grain Size Distribution, and Grain Growth Kinetics in Solid-Pore Systems. Critical Reviews in Solid State and Materials Sciences 35:4, pages 263-305.
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J. Jung & S. Kang. (2002) Microstructure of TiC–TiN–Ni–(B) cermet systems. Powder Metallurgy 45:1, pages 83-89.
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Articles from other publishers (22)

Ziyan Zhao, Kaiyue Zheng, Xianghui Yu, Lujie Wang, Shuyu Yao & Qian Qi. (2023) Effect of particles size of TiC on oxidation resistance of in-situ TiC/Ni composite. Heliyon 9:7, pages e18220.
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Haojun Zhou, Hongliang Tao, Ning Wu, Yimin Li, Yuhang Yin & Fenghua Luo. (2022) Sintering behavior of the Ti(C,N)‐based cermets with graphite or diamond additives. International Journal of Applied Ceramic Technology 19:6, pages 3191-3201.
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M. de Nicolás, L. Pereira, M. Penoy, C. Bertalan, R. Useldinger, L. Llanes & E. Gordo. (2021) Phase diagrams in alternative hard materials: Validation of thermodynamic simulation through high temperature x-ray diffraction, differential thermal analysis and microstructural characterization. International Journal of Refractory Metals and Hard Materials 97, pages 105513.
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Haojun Zhou, Hongliang Tao, Mingchu Huang, Hao Yang, Ning Wu, Yimin Li, Yuhang Yin & Fenghua Luo. (2021) Effect of diamond addition on microstructure and mechanical properties of Ti(C,N)-based cermets. Ceramics International 47:2, pages 2294-2302.
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Igor L. ShabalinIgor L. Shabalin. 2020. Ultra-High Temperature Materials III. Ultra-High Temperature Materials III 11 514 .
Guotao Zhang, Yong Zheng, Jiajie Zhang, Zheng Ke, Wei Zhou & Weihao Xiong. (2019) Growth of ceramic grains during liquid-phase sintering in Ti(C,N)-based cermets prepared by in situ carbothermal reduction of TiO2. International Journal of Refractory Metals and Hard Materials 85, pages 105060.
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E. Chicardi, Y. Torres, M.J. Sayagu?s, V. Medri, C. Melandri, J.M. C?rdoba & F.J. Gotor. (2015) Toughening of complete solid solution cermets by graphite addition. Chemical Engineering Journal 267, pages 297-305.
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Youngjae Kang & Shinhoo Kang. (2010) The surface microstructure of TiC-(Ti,W)C-WC-Ni cermets sintered in a nitrogen atmosphere. Materials Science and Engineering: A 527:27-28, pages 7241-7246.
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M.J. Sayagués, M.A. Avilés, J.M. Córdoba, M.D. Alcalá & F.J. Gotor. (2010) Microstructural characterization of ceramic–intermetallic composites using TEM related techniques. Journal of the European Ceramic Society 30:8, pages 1765-1774.
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J.W. Kim, S.Y. Ahn & S. Kang. (2009) Effect of the complete solid-solution phase on the microstructure of Ti(CN)-based cermet. International Journal of Refractory Metals and Hard Materials 27:2, pages 224-228.
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Y. Kang, G.-H. Lee & S. Kang. (2007) Growth of ultrafine Ti(CN) particles in Ti(CN)–Ni cermets. Scripta Materialia 56:2, pages 133-136.
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. 2006. Light Metal Systems. Part 4. Light Metal Systems. Part 4 1 8 .
In-Jae Jung, Shinhoo Kang, Seung-Hoon Jhi & Jisoon Ihm. (1999) A study of the formation of Ti(CN) solid solutions. Acta Materialia 47:11, pages 3241-3245.
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S. Annavarapu & R.D. Doherty. (1995) Inhibited coarsening of solid-liquid microstructures in spray casting at high volume fractions of solid. Acta Metallurgica et Materialia 43:8, pages 3207-3230.
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I.C. Lee, H. Hondo & T. Sakuma. (1993) Nonuniform carbide grain growth during high-temperature compressive deformation in WC-13wt%Co. Scripta Metallurgica et Materialia 28:1, pages 97-102.
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Susanna Binder, Walter Lengauer & Peter Ettmayer. (1991) The TiNNi system: investigations relevant for cermet sintering. Journal of Alloys and Compounds 177:1, pages 119-127.
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V. D. Lyubimov, D. S. Élinson & G. P. Shveikin. (1991) Optimization of the operational properties of tungstenless hard alloys. Soviet Powder Metallurgy and Metal Ceramics 30:11, pages 957-963.
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Young-Joon Baik & Kwang Yong Eun. (1991) Chemically Induced Migration of Liquid Films and Grain Boundaries in TiN-Ni-(TiC) Alloy. Journal of the American Ceramic Society 74:6, pages 1397-1400.
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Hideaki Matsubara, Soon-Gi Shin & Taketo Sakuma. (1991) Growth of Carbide Particles in TiC&ndash;Ni and TiC&ndash;Mo<SUB>2</SUB>C&ndash;Ni Cermets during Liquid Phase Sintering. Materials Transactions, JIM 32:10, pages 951-956.
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Mikio Fukuhara. (2005) Properties of (Y)ZrO 2 –Al 2 O 3 and (Y)ZrO 2 –Al 2 O 3 –(Ti or Si)C Composites . Journal of the American Ceramic Society 72:2, pages 236-242.
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Randall M. GermanRandall M. German. 1985. Liquid Phase Sintering. Liquid Phase Sintering 127 155 .
Randall M. GermanRandall M. German. 1985. Liquid Phase Sintering. Liquid Phase Sintering 223 236 .

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