介绍了粉末冶金法生产的多晶态铍的性能、生产工艺.综述了多晶态铍室温断裂行为的研究状况,包括铍的室温断裂特征,以及诸如铍粉粒度和形态、粉末压制过程、表面残余应力,机械加工损伤、多种杂质(BeO,Fe,Al,Cr,Ag,Si,C等)对铍室温断裂性能的影响.预测了未来关于铍在工程领域可能开展的基础性研究.
参考文献
[1] | Barna B P;Culver D A et al.Clinical application of beryllium lymphocyte proliferation testing[J].Clinical and Vaccine Immunology,2003,10(06):990. |
[2] | Willianson M .Satellite materials-meeting the challenge of the space enviromnment[J].Metals and Materials,1991,7(07):434. |
[3] | Tikhinskij G F;Stoev P I;Papirov I I et al.New beryllium materials[J].Journal of Nuclear Materials,1996,233-237:828. |
[4] | The economics of beryllium[M].London:Roskill Information Services Ltd,2001 |
[5] | Wilson P R.Industrial hygiene of beryllium[A].Baltimore:The Williams & Wilkins,1991 |
[6] | Hertzberg R W.Deformation and fracture mechanics of engineering materials[M].New York:John Wiley and Sons,Inc,1995 |
[7] | Larose J .Pressure effects on the flow and fracture properties of Be-Al alloys[D].Cleveland:Case Western Reserve University,2002. |
[8] | Greenfield P.Engineering application of beryllium[M].London:Mills and Boon Limited,1971 |
[9] | 孙本双 .铍粉末冶金技术进展[J].粉末冶金技术,1994,12(02):126. |
[10] | 钟景明,闵学仁,聂大钧,高洪季,付晓旭,夏洪先,王零森.冲击研磨铍粉及其材料性能[J].稀有金属材料与工程,1999(06):386-389. |
[11] | 钟景明 .金属铍的微屈服行为及机理研究[D].中南大学,2001. |
[12] | 许德美,李峰,王东新,任玉平,裴文利,秦高梧.组织缺陷对金属铍室温断裂行为的影响规律研究[J].稀有金属,2010(06):844-849. |
[13] | 李瑞文,董平,白彬,汪小琳.紧凑拉伸Be试样应力和断裂行为研究[J].稀有金属材料与工程,2009(01):95-98. |
[14] | 王学泽,马立斌,王文伟,贾莉,方陆鹏,富东慧,王忠保.金属铍材室温平面应变断裂韧性测试方法[J].理化检验-物理分册,2001(03):106-109. |
[15] | Prime M B;Adams C D;Chen S R .Advanced plasticity models applied to recent shock data on beryllium[J].AIP Conference Proceedings,2012,1426:1035. |
[16] | 张健康,刘宏建,商俊伟,张文华,余艳妮,金勇.铍材在高温时的冲击性能初探[J].宁夏工程技术,2009(02):112-114. |
[17] | He L J;Xu D M;Hu N et al.Model analysis on particle size distribution of beryllium powder[J].Appl Mechan Mater,2013,268-270:336. |
[18] | 王零森 等.晶粒尺寸对等静压铍材力学性能的影响[J].中南工业大学学报(自然科学版),1999,30(04):395. |
[19] | Marder J M.Beryllium metallurgy technology[A].Ohio:ASM International,1984 |
[20] | Hanes H D;Stonehouse A J.HIPing of beryllium achieves full commercial status[A].London,1992 |
[21] | 张友寿,秦有钧,吴东周,王勤国.铍的粉末冶金工艺及焊接研究进展[J].焊接学报,2001(05):93-96. |
[22] | 陈玉安,周上祺,韩宪兵.三维残余应力及深度分布的X射线分析和计算[J].重庆大学学报(自然科学版),2002(01):41-43. |
[23] | 董平.铍材表层应力梯度对X射线应力测试的影响[J].稀有金属材料与工程,2002(02):148-151. |
[24] | 董平,秦有钧,柏朝茂.铍环形焊件残余应力的有限元分析与测试[J].理化检验-物理分册,2000(05):216-219. |
[25] | 凌泽民,周上祺,徐楚韶.铍环电子束焊接接头残余应力分析[J].焊接技术,2000(01):4-5. |
[26] | 张鹏程,董平,邹觉生.铍材机加应力沿层深分布规律[J].矿冶,2001(01):59-62,40. |
[27] | 张鹏程;田黎明 .车削加工对铍组织与性能的损伤[J].稀有金属,2001,25(02):90. |
[28] | Richard R C;William L;Brewer A W .The testing and heat treating of beryllium for machine-damage removal[R].Pittsburgh:Rockwell International,1981. |
[29] | Goldberg A .Beryllium manufacturing processes[EB/OL].http://e-reports-ext.llnl.gov/pdf/335566.pdf |
[30] | Marder J M.Powder metallurgy beryllium[A].Ohio:ASM International,1998:543. |
[31] | Aldinger F;Gold E;Petzow G.Effects of oxide and grain size in high-purity beryllium[A].London:The Royal Society,1977:14. |
[32] | 付晓旭,钟景明,王东新,王学泽,王零森.氧化铍对铍材微屈服强度的影响[J].宇航材料工艺,2002(03):50-53. |
[33] | 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(10):1637-1641. |
[34] | 钟景明;聂大钧;付晓旭.惯性器件用铍材微屈服强度的研究[J].稀有金属与硬质合金,1999(01):43. |
[35] | 许德美,秦高梧,李峰,王东新,夏洪先,任玉平,裴文利.BeO杂质形态与分布对金属铍力学性能的影响[J].中国有色金属学报,2011(04):769-776. |
[36] | Mao J;He L J;Xu D M .Numerical analysis of thermallyinduced residual stresses in beryllium caused by BeO[J].Advances in Materials Research,2012,476-478:2510. |
[37] | Stonehouse A J.Influence of impurity in beryllium[A].New York:Plenum Press,1979 |
[38] | 闵学仁,钟景明.铍中铁铝杂质对铍材性能的影响[J].稀有金属与硬质合金,2000(03):45-49. |
[39] | 钟景明,王东新,王学泽,付晓旭.真空退火对真空热压铍材力学性能的影响[J].宁夏工程技术,2002(01):29-31,34. |
[40] | 聂大均.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材编审办公室,1986 |
[41] | 钟景明,王学泽,王东新,付晓旭,王零森.固溶处理对铍材力学性能的影响[J].稀有金属与硬质合金,2002(03):4-7. |
[42] | 许德美,李峰,王文伟,贾莉.铍中Be2C及硅基夹杂对铍材伸长率的影响[J].理化检验-物理分册,2005(10):491-493. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%