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从PM2004看世界粉末冶金的发展现状 被引量:14

A review on world powder metallurgy industry from perspective of PM2004
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摘要 详细介绍了2004年粉末冶金世界大会的基本情况, 概述了国际粉末冶金工业现状, 并按照类别阐述了粉末冶金各技术领域以及材料产品, 如粉末烧结钢、粉末注射成形、粉末制备技术、粉末压制技术、粉末烧结理论与技术、粉末多孔材料、硬质合金、粉末轻金属、粉末零件后续处理加工技术、粉末冶金过程模拟与标准化以及粉末功能材料等的发展趋势。世界粉末冶金的发展现状和趋势表明粉末冶金技术是工业化集成技术, 而不仅仅是一种高技术。 The technical program of PM2004 World Congress is described, and world powder metallurgy industry is overviewed. According to different technical fields and materials, the state of the art and perspective for PM sintered steel, powder injection molding, powder processing, powder compaction, powder sintering techniques and fundamentals, PM porous materials, hardalloys, PM light metals, secondary and finishing operations for PM parts, PM processing modeling and standardization, and PM functional materials, have been described in detail. The status and the perspective of world powder metallurgy industry indicates that powder metallurgy is rather an integrated industrialized technique than merely a high-tech.
作者 刘咏 黄伯云 龙郑易 贺跃辉
机构地区 中南大学粉末冶金国家重点实验室
出处 《粉末冶金材料科学与工程》 EI 2005年第1期10-20,共11页 Materials Science and Engineering of Powder Metallurgy
基金 国家自然科学基金专项基金项目资助(50323008)
关键词 粉末冶金 国际会议 发展趋势 powder metallurgy world congress perspective
分类号 TF125 [冶金工程—粉末冶金]
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参考文献162

  • 1[1]Blanco L, Campos M, Torralba J M. Porosity evaluation for sintered and heating treated high performance steels[A]. Herbert D and Raimund R. Euro PM2004Conference Proceedings[C]. Shrewsbury UK: European Powder Metallurgy Association, 2004, 3:225 -230.
  • 2[2]Murphy T. Quantifying the degree-of-sinter in ferrous PM materials[A]. ibid, 3:219-224.
  • 3[3]Beiss P, EI-Soeudy R I, Petrosyan G L. Plastic deformation behaviour of porous sintered steels [A].ibid, 3: 7- 16.
  • 4[4]Stoyanova V, Molinari A, Xu C, et al. Influence of microstructure and porosity on tensile and impact properties of high performance PM steels[A]. ibid, 3:47 - 52.
  • 5[5]Dudrova E, Kabatova M. Fractography of sintered steels: A review [A]. ibid, 3:193 - 198.
  • 6[6]Garcia Cambronero, Luis Enrique, Ruiz-roman J M,et al. Microstructure and properties of CU-infiltrated chromium-molybdenum steels[A]. ibid, 3: 249- 254.
  • 7[7]Kawai Nobuyasu, Futagawa T. Quantitative expression of fractured surface of sinter-forged steels[A].ibid, 3: 219-224.
  • 8[8]Kraft Torsten, Riedel H. Keynote. Assessment of fatigue lifetime of PM-parts[A]. Herbert Danninger and Raimund Ratzi. Euro PM2004 Conference Proceedings[C]. ibid, 3: 111- 116.
  • 9[9]Akaslan Samil, Saritas S, Caution R, et al. Effect of porosity and microstructure inhonogeneities on the fatigue crack growth response of a sinter-hardenable hybrid PM steel[A]. ibid, 3:117 - 126.
  • 10[10]Chawla Nikhilesh, Piotrowski G, Deng X, et al. Fatigue crack growth of sintered steel with a heterogeneous microstructure[A]. ibid, 3: 153-158.

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粉末冶金材料科学与工程
2005年 第1期

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