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BeO杂质形态与分布对金属铍力学性能的影响 被引量:17

Effects of morphology and distribution of BeO impurity on mechanical properties of metal beryllium
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摘要 研究热等静压金属铍材中BeO杂质分布状态和颗粒尺寸对金属铍力学性能的影响,并通过设计真空退火试验,进一步调控BeO杂质在铍基体中的分布,得出BeO杂质形态与分布对力学性能的影响规律。结果表明:相比于BeO含量,BeO杂质的分布和形态对金属铍力学性能的影响更为关键;当BeO粒子弥散分布时,位于晶界上BeO粒子的尺寸及间距是决定金属铍材强度与塑性的关键因素,粗大的BeO粒子(粒径大于300 nm)是导致铍材塑性低的主要原因之一;三叉晶界不致密BeO聚集态相当于在材料内部预制一定尺寸的微裂纹,也是影响铍材伸长率的主要因素。 The effects of the morphology and distribution of BeO impurity on the mechanical properties of metal beryllium in the powder hot isostatic pressed(HIPed) metal beryllium and the vacuum annealed ones were studied,and the general conclusions were obtained.The results show that the morphology and distribution of BeO impurity play more important roles than the BeO content in controlling mechanical properties of beryllium.When BeO particles monodisperse distribution in the beryllium matrix,BeO particle size and interparticle distance along the grain boundaries of Be are key factors to affect the strength and ductility of Be material,and BeO with size larger than 300 nm is the main reason of poor ductility of Be.BeO particles at the triple grain boundary junctions of Be,which is equivalent to the pre-fabricated microcracks inside,mainly lead to poor ductility of Be material.
作者 许德美 秦高梧 李峰 王东新 夏洪先 任玉平 裴文利
机构地区 东北大学材料各向异性与织构教育部重点实验室 西北稀有金属材料研究院宁夏自治区特种材料重点实验室
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2011年第4期769-776,共8页 The Chinese Journal of Nonferrous Metals
基金 国家自然科学基金资助项目(11062010 50761006) 宁夏自然科学基金资助项目(NZ08177 NZ0946) 科技人员服务企业行动项目(2009GJG30043)
关键词 BEO BE 三叉晶界 应力集中 塑性 BeO Be triple grain boundary junction stress concentration ductlity
分类号 TG146.2 [金属学及工艺—金属材料] TB383 [一般工业技术—材料科学与工程]
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参考文献13

  • 1CLENEBT P.How the beryllium industry is building new markets by applying isostatic processing technologies[C]// Proceedings of the 4th International Conference on Isostatic Pressing.Stratford-upon-Avon,UK:Metal Powder Report Publishing Services Ltd,1990:18.1-18.11.
  • 2Roskill Information Services Ltd.The economics of beryllium[M].London:Roskill Information Services Ltd,2001:111-119.
  • 3聂大钧.铍粉末冶金与加工技术[M].北京:中国有色金属工业总公司职工教育教材编审办公室,1986:2,181-182.
  • 4ALDINGER F,GOLD E,PETZOW G Effect of oxide and grain size in high-purity beryllium[C]// Beryllium 1977,the 4th International Conference on Beryllium.London:The Royal Society,1977:14.1-14.11.
  • 5MARDER J.Metals Handbook (Volume 7):Power Metallurgy[M].Ohio:American Society of Metals,169-172.
  • 6钟景明,高勇,王东新,王学泽,王零森.金属铍的微屈服行为及机理[J].中国有色金属学报,2004,14(10):1637-1641. 被引量:14
  • 7STONEHOUSE A J.Beryllium science and technology (Volume 1)[M].New York:Plenum Press,1979:181-204.
  • 8WEBSTER D.Physical metallurgy of beryllium[C]//Beryllium 1977,the 4th International Conference on Beryllium.London:The Royal Society,1977:1.1-1.12.
  • 9LAROSE J.Pressure effects on the flow and fracture properties of Be-Al alloys[D].USA,Case Western Reserve University,2001:7.
  • 10MARSCHALL C W,MARINGER R E,CEPOLLINA F J.Dimensional stability and micromechanical properties of materials research use in an orbiting astronomical observatory[C]//13th Structure,Structure Dynamics and Materials Conference.Texas:AIAA,1972:72-235.

二级参考文献10

  • 1[1]Marschall C W, Maringer R E. Dimensional Instability: An Introduction [M]. Oxford: Pergamon Press,1977.
  • 2[2]IngramAG, HoskinsME, SovikJ H, etal. Studyof microplastic properties and dimensional stability of materials[R]. AD838802. Battelle Memorial Inst Columbus Ohio, 1968.
  • 3[3]Paquin R A. Dimensional stability: an overview[A].Dimensional Stability [C]. San Diego, California:SPIE-The Inter Society for Optical Engineering, 1990.2-17.
  • 4[4]Hughel T J. Dimensional Stability of Several Types of Beryllium[M]. London: Chapman and Hall Ltd,1963. 546-552.
  • 5[5]Bonfield W, Li C H. The Microstrain Characteristics of Beryllium[M]. Philadelphia: Gordon and Breach Science Publishers, Inc, 1966. 539 - 567.
  • 6[6]Cattiness W, Fullertin-Batten R C, Paquin R A. Optical application of beryllium[A]. The Metals Society.Beryllium 1977: Fourth Inter Conf on Be[C]. London: The Royal Society, 1977. 53.
  • 7[7]Parsonage T B. Selecting mirror materials for highperformance optical systems[A]. Paquin R A. Dimensional Stability[C]. San Diego, California: SPIE-The International Society for Optical Engineering, 1990.119 - 126.
  • 8[8]Hodge W. Beryllium for structural applications[R].Defense Metals Information Center Columbus,AD278723 Ohio, 18, 1962.
  • 9[9]ZHONG Jing-ming, WANG Zhan-hong, NIE Da-jun,et al. Influence of grain size on mechanical properties of isostatically pressed beryllium Materials[J]. Trans Nonferrous Met Soc China, 2000, 10(2) : 228 - 231.
  • 10[12]Christ B W, Polvani R S. Micromechanical properties of beryllium and other instrument materials[R]. ADA119187, 1982.

共引文献13

同被引文献171

引证文献17

二级引证文献25

中国有色金属学报
2011年 第4期

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