Electrical conductivity of Cu-Li alloys 被引量：1

Electrical conductivity of Cu-Li alloys

在线阅读下载PDF

导出

摘要 The electrical conductivity of Cu-Li alloys was studied. And the distribution of electrons near Fermi surface was detected by synchrotron radiation instrument. The results show that the electrical conductivity of Cu-Li alloys decreases from 5.22 X 10(-9) S/m to 3.69 X 10(-9) S/m with the increase of Li content. Li can decrease the oxygen, sulfur and other impurities content in commercial Cu, but Li dissolved in Cu lattice leads to distortion of Cu lattice from 0.005%-0.050%, affects the valence band of Cu, increases the binding energy of surface electron, and decreases the electron density of Fermi surface simultaneously. So the electrical conductivity decreases gradually with the increase of Li content. The electrical conductivity of Cu-Li alloys was studied. And the distribution of electrons near Fermi surface was detected by synchrotron radiation instrument. The results show that the electrical conductivity of Cu-Li （alloys） decreases from 5.22×10-9 S/m to 3.69×10-9 S/m with the increase of Li content. Li can decrease the （oxygen,） sulfur and other impurities content in commercial Cu, but Li dissolved in Cu （lattice） leads to distortion of Cu lattice from 0.005%0.050%, affects the valence band of Cu, increases the binding energy of surface electron, and （decreases） the electron density of Fermi surface simultaneously. So the electrical conductivity decreases gradually with the increase of Li content.

作者朱达川宋明昭陈家钊涂铭旌潘海滨

机构地区 School of Materials Science and Engneering National Synchronous Radiation Laboratory

出处《Journal of Central South University of Technology》 SCIE EI CAS 2004年第3期252-254,共3页 中南工业大学学报（英文版）

基金 Project( 5 95 710 12 )supportedbytheNationalNaturalScienceFoundationofChina

关键词 Cu-Li alloy electrical conductivity valence electron distribution of electrons 铸铁电导率电子合金

分类号 TG132 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献2

1姜训勇,李忆莲,王童.高强度高导电铜合金[J].上海有色金属,1995,16(5):284-288. 被引量：33
2赵冬梅,董企铭,刘平,金志浩,康布熙.高强高导铜合金合金化机理[J].中国有色金属学报,2001,11(z2):21-24. 被引量：124

二级参考文献11

1[1]Rensei F.Rensei Futatsuka development of copper alloy for leadframe [J].Journal of the Japan Copper and Brass Research Association,1997,36: 25-32.
2[2]Naotsugu I.Behavor of pricipitation and recrystallization affect upon texture of Cu-Cr-Zr alloy [J].Journal of the Japan Copper and Brass Research Association,1993,32: 115-121.
3[3]Motohisa M.High-strength and high-conductivity alloy KLF201 [J].Journal of the Japan Copper and Brass Research Association,1988,27: 93-98.
4[4]Motohisa M.Development trends in new copper alloy for lead-frame [J].Journal of the Japan Copper and Brass Research Association,1990,29: 18-21.
5[5]Motohisa M.Poformence of KFC-SH and KLF194-SHT copper alloys in high-strength and high-conductivity for lead frame [J].Journal of the Japan Copper and Brass Research Association,1990,29: 224-233.
6[7]Hiroshi Y.Cu-Fe-Ti-Mg alloy used in electronical material [J].Journal of the Japan Copper and Brass Research Association,1984,23: 109-115.
7[8]CEN Shu-chuan(陈树).Physical Property of Material(材料物理性能) [M].Shanghai: Shanghai Jiaotong University Press,1999.40.
8[9]CAO Yu-wen(曹育文).引线框架用高强度高导电铜合金 [D].Beijing: Tsinghua University,1999.
9[10]Takao H.Performance of EFTEC-64TC alloy in high-strength and high-conductivity for lead-frame [J].Journal of the Japan Copper and Brass Research Association,1997,36: 87-93.
10机械工业部仪器仪表工业局统.常用电工材料[M]机械工业出版社,1986.

共引文献148

1许崇龙,陈九磅,徐铮铮.时效处理对热轧铜-锌-铬合金导电性能的影响[J].机械工程材料,2007,31(12):44-46.
2周世杰,赵秉钧,赵桢,金鑫.Application of Lanthanum in High Strength and High Conductivity Copper Alloys[J].Journal of Rare Earths,2006,24(z2):385-388. 被引量：24
3黄国杰,程镇康,谢水生,马吉苗,程磊.引线框架用C194铜合金的软化温度研究[J].稀有金属,2006,30(z2):158-161. 被引量：6
4马行驰,黄金亮,贾淑果,刘平,田保红.时效对列车接触网导线用Cu-Ag-Zr合金性能的影响[J].热加工工艺,2004,33(8):35-37. 被引量：5
5李伟,刘平,苏娟华,刘勇,康布熙,田保红.时效与形变对Cu-Cr-Zr合金性能的影响[J].特种铸造及有色合金,2004,24(6):25-26. 被引量：22
6LIUPing,LEIJing-guo,ZHAODong-mei,JINGXiao-tian.Study on Aging Kinetics of CuNiSi Alloy[J].材料热处理学报,2004,25(5):204-207. 被引量：3
7雷静果,刘平,赵冬梅,井晓天,郅晓.Cu-Ni-Si合金时效早期动力学研究[J].功能材料,2005,36(3):368-370. 被引量：19
8刘勇,刘平,李伟,田保红.Cu-Cr-Zr-Y合金时效析出行为研究[J].功能材料,2005,36(3):377-379. 被引量：21
9王常春,闵光辉,卢庆亮,于化顺.Cu-Zr合金定向凝固组织的研究[J].山东大学学报（工学版）,2005,35(2):10-13. 被引量：1
10朱达川,宋明昭,涂铭旌.铜碲合金时效工艺的研究[J].稀有金属材料与工程,2005,34(5):807-810. 被引量：7

同被引文献18

1刘平.高性能铜合金的热处理及其）JnT技术[J].金属热处理,2005,30(C00):1-7. 被引量：15
2L1U Ping, KANG Buxi, CAO Xingguo, et al. Aging precipitation and recrystallization of rapidly solidified Cu-Cr-Zr- Mg alloy[J]. Materials Science and Engineering, 1999, 265(1/2): 262-267.
3XIA Chengdong, ZHANG Wan, KANG Zhanyuan, et al. High strength and high electrical conductivity Cu-Cr system alloys manufactured by hot rolling-quenching process and thermo- mechanical treatment[J]. Material Science and Engineering A, 2012, 538: 295-301.
4LIU Ping, SU Juanhua, DONG Qiming, et al. Optimization of aging treatment in lead frame copper alloy by intelligent technique[J]. Materials Letters, 2005, 59(26): 3337-3342.
5Panigrahi S K, Jayaganthan R. stability, precipitate evolution, Effect of annealing on thermal and mechanical properties of cryorolled A1 7075 alloy[J]. Metallurgical and Materials Transactions A, 2011, 42(10): 3208-3217.
6Habibi A, Ketabchi M. Enhanced properties of nano-grained pure copper by equal channel angular rolling and post-annealing[J]. Materials and Design, 2011, 34: 483-487.
7Suzuld H, Karmo M, Kitano H. High-temperature embrittleness of Cu-Cr alloy[J]. Journal of the Japan Institute of Metals, 1970, 34(5): 497-501.
8Murayama M, Belyakov A, Hara T, et al. Development of a high-strength high-conductivity Cu-Ni-P alloy[J]. Journal of Electronic Materials, 2006, 35(10): 1787-1792.
9钟建伟,周海涛,赵仲恺,李庆波,周啸.形变热处理对Cu-Cr-Zr合金时效组织和性能的影响[J].中国有色金属学报,2008,18(6):1032-1038. 被引量：33
10周倩,李雷,李强,谢水生,黄国杰.新型高强高导接触导线用Cu-Cr-Zr系合金研究进展[J].有色金属加工,2008,37(6):4-8. 被引量：13

引证文献1

1吴一凤,夏承东,汪明朴,张婉,张睿.热轧工艺对Cu-Cr-Zr合金力学性能和电学性能的影响[J].中南大学学报（自然科学版）,2013,44(3):930-935. 被引量：8

二级引证文献8

1刘林贤,汪明朴,陈伟,陈畅.新型Cu-Zn-Cr合金的形变热处理及对性能的影响[J].金属热处理,2015,40(6):80-85. 被引量：4
2王松,庄滇湘,谢明,张吉明,陈敬超,柳青,周晓龙.连续铸造Cu-Cr-Zr合金的时效动力学分析[J].电工材料,2014(2):13-16. 被引量：5
3张小平,杨斌,李明茂,陈剑明,汪航.非真空熔铸CuCrZr合金的抗烧损研究[J].有色金属科学与工程,2015,6(3):36-39. 被引量：6
4袁竭,隆永胜,赵顺洪,杨斌.高强高导Cu合金强化技术研究进展[J].特种铸造及有色合金,2015,35(8):828-832. 被引量：6
5钟江伟,张鸿,陈彦旭.稀土元素La、Ce含量对Cu-0.4Cr-0.2Zr-0.15Mg合金组织和性能的影响[J].中国有色金属学报,2016,26(5):1092-1099. 被引量：18
6王霖倩,王日初,王小锋,彭建,邓敏.形变热处理对Cu-11Zn-0.5Cr合金时效组织和性能的影响[J].中国有色金属学报,2017,27(3):496-503. 被引量：3
7陈世康,陈小红,刘平,王卫东,谢浩峰,黄国杰,彭丽军,刘文,付少丽,刘科杰.高速铁路接触线用高强高导Cu-Cr-Co/Ti合金的组织性能研究[J].有色金属材料与工程,2020,41(5):1-8. 被引量：7
8杨晶晶,彭振波,张柯,陈小红,刘平.时效处理对Cu-Cr-Ti合金组织与性能的影响[J].有色金属材料与工程,2021,42(1):17-22. 被引量：1

1XU Si-xiang,WU Shu-sen,MAO You-wu,AN Ping,GAO Pei-qing.Variation of hydrogen level in magnesium alloy melt[J].China Foundry,2006,3(4):275-278. 被引量：9
2焦向东,赵华夏.Research of welding hyperbaric arc electron density in TIG welding[J].China Welding,2010,19(2):28-31.
3Yong-Jun Li,Song Xue,Min Zhang,Dan-Dan Jia,Dong-Bai Dou,Yu Gao.Vacuum joints of dispersion-strengthened copper and its applications in synchrotron radiation front end[J].Nuclear Science and Techniques,2016,27(6):74-78.
4Li, Wen, Chen, Daimin, Zhang, Ruilin.EFFECTS OF INTERSTITIAL IMPURITIES ON PHASE TRANSFORMATION OF Ti-Al ALLOYS[J].中国有色金属学会会刊：英文版,1999,9(1):59-64.
5Jianmin YUAN(Department of Applied Physics, National University of Defense Technology, Changsha 410073, China)L.Intsche and J.Nome(Institut fr Theoretische Physik B, TU Clausthal D-38678 Clausthal-Zellerfeld, Germany)To whom correspondence should be addre.Origion of Band-like and Atom-like Features of the Valence Band Auger Emission from Thansition Metals[J].Journal of Materials Science & Technology,1999,15(4):375-376.
6W.Li College of Mechanical Engineering,Changchun University,Changchun 130022 ,China.CALCULATION OF VALENCE ELECTRON STRUCTURES AND MELTING POINT OF Ti Al ALLOYS WITH INTERSTITIAL IMPURITIES[J].Acta Metallurgica Sinica(English Letters),1999,12(4):617-620.
7孟亮,耿东生,郑修麟.Effect of Impurities and Ce on the Anisotropic Behavior of 8090 Alloy Sheet[J].Journal of Rare Earths,1996,14(1):41-46. 被引量：1
8唐文彦,张军,强锡富.Analysis of Effect of Stylus Radius on Measurement of Surface Profile[J].Journal of Harbin Institute of Technology(New Series),1998,5(4):85-89.
9Mu,Jialong He,Huachun Institute of Precious Metal,Kunming 650221,China.EFFECTS OF TENSILE STRESS AND IMPURITIES ON CREEP ACTIVATION ENERGY OF PLATINUM[J].中国有色金属学会会刊：英文版,1993,3(4):88-92.
10HU XueLan,LIU Xu,XU Zhou,LIANG JiaChang,WANG TianMin.First-principles investigation of the effects of B impurities on the mechanical properties of NiAl intermetallics[J].Science China(Physics,Mechanics & Astronomy),2011,54(5):809-814. 被引量：4

Journal of Central South University of Technology

2004年第3期

浏览历史

内容加载中请稍等...