张泰华----中国科学院力学所

科研队伍

	院士专家

	杰出青年、百人计划

	研究员

	副研究员

	人才招聘

	“百人计划”招聘

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姓名:	张泰华	性别:	男
职务:	无	职称:	正高级工程师
学历:	博士	通讯地址:	北京市海淀区北四环西路15号LNM
电话:	010-82543950	邮政编码:	100190
传真:	010-82543977	电子邮件:	zhangth@lnm.imech.ac.cn

简历：

1985.9～1990.7 中国科学技术大学近代力学系爆炸力学专业，获学士学位。
1992.9～1995.7 西安交通大学力学工程系，获固体力学专业硕士学位。
1996.9～1999.7 中国科学院力学研究所非线性力学国家重点实验室，获固体力学专业博士学位。

1990.7～1996.8 在中国兵器工业第二零四研究所（西安近代化学研究所）工作。

1999.7～在中国科学院力学研究所非线性力学国家重点实验室工作。

2007年12月聘为正高级工程师。2008年5月被聘为博士生导师。

2000.7～2000.9 香港科技大学机械工程系访问学者。

研究领域：

微/纳米固体实验力学和性能表征

社会任职：

全国纳米技术标准化技术委员会纳米压入与划入技术标准化工作组副组长全国纳米技术标准化技术委员会纳米检测技术标准化工作组委员中国力学学会第8届实验力学专业委员会委员

获奖及荣誉：

1. 国家杰出青年科学基金获得者

2. 中国科学院“百人计划”入选者

3. 中国科学院“现有关键技术人才”入选者

代表论著：

国家标准起草

[1] GB/T 22458-2008. 仪器化纳米压入试验方法通则. 首次发布日期：2008-10-29，实施日期：2009-05-01. 主要起草人：王秀芳，张泰华，宋洪伟，杨晓萍，杨荣，郇勇

[2] GB/T 25898-2010. 仪器化纳米压入试验方法薄膜的压入硬度和弹性模量. 首次发布日期：2011-01-10. 实施日期：2011-05-01. 主要起草人：王秀芳，张泰华，宋洪伟，杨晓萍，杨荣，郇勇

近期代表性著作

张泰华编著. 微/纳米力学测试技术及其应用. 北京：机械工业出版社. 2004年第1次印刷，2005年第2次印刷

近期代表性论文

[1]Yihui Feng, Taihua Zhang, Rong Yang. A work approach to determine Vickers indentation fracture toughness. Journal of the American Ceramic Society. 2011,94(2):332-335

[2]Rong Yang, Taihua Zhang, Yihui Feng. Theoretical analysis of the relationships between hardness, elastic modulus, and the work of indentation for work-hardening materials. Journal of Materials Research. 2010,25(11):2072-2077

[3]Yong Huan, Dongxu Liu, Rong Yang, Taihua Zhang. Analysis of the practical force accuracy of electromagnet-based nanoindenters. Measurement. 2010,43(9):1090-1093

[4]Taihua Zhang,Yihui Feng, Rong Yang, Peng Jiang. A method to determine fracture toughness using cube-corner indentation. Scripta Materialia. 2010,2:199-201

[5]Taihua Zhang, Peng Jiang, Yihui Feng, Rong Yang. Numerical verification for instrumented spherical indentation techniques in determining the plastic properties of materials. Journal of Materials Research. 2009,24(12):3653-3663

[6]Peng Jiang, Taihua Zhang, Yihui Feng, Rong Yang, Naigang Liang. Determination of plastic properties by instrumented spherical indentation: Expanding cavity model and similarity solution approach. Journal of Materials Research. 2009,24(3):1045-1053

[7]Wenjun Ma, Luqi Liu, Rong Yang, Taihua Zhang, Zhong Zhang, Li Song,Yan Ren, Jun Shen, Zhiqiang Niu, Weiya Zhou, Sishen Xie. Monitoring a micromechanical process in macroscale carbon nanotube films and fibers. Advanced Materials. 2009,21(5):603-608

[8]Wenjun Ma, Luqi Liu, Zhong Zhang, Rong Yang, Gang Liu, Taihua Zhang, Xuefeng An, Xiaosu Yi, Yan Ren, Zhiqiang Niu, Jinzhu Li, Haibo Dong, Weiya Zhou, Pulickel M. Ajayan, Sishen Xie. High-Strength Composite Fibers: Realizing True Potential of Carbon Nanotubes in Polymer Matrix through Continuous Reticulate Architecture and Molecular Level Couplings. Nano Letters. 2009,9(8):2855-2861

[9]姜鹏,张泰华,杨荣,梁乃刚. 基于球形压入能量分析方法提取材料的塑性力学参数. 力学学报. 2009,41(5):730-738

[10]Rong Yang, Taihua Zhang, Peng Jiang, Yilong Bai. Experimental verification and theoretical analysis of the relationships between hardness, elastic modulus, and the work of indentation. Applied Physics Letters. 2008,92(23):231906

[11]Dejun Ma, Chung Wo Ong, Taihua Zhang. An improved energy method for determining Young’s modulus by instrumented indentation using a Berkovich tip. Journal of Materials Research. 2008,23(8):2106-2115

[12]Chuanbao Cao, Hongli Du, Yajie Xu, Hesun Zhu, Taihua Zhang, Rong Yang. Superelastic and spring properties of Si3N4 microcoils. Advanced Materials. 2008,20(9):1738-1743

[13]Yong Huan, Taihua Zhang, Yemin Yang. A moving-coil designed micro-mechanics tester with application on MEMS. Meas. Sci. Technol. 2007,18:3612–3616

[14]BAI Ke, ZHANG TaiHua, YANG ZhiYu, SONG Fan, YANG XiaoDa, WANG Kui. Anisotropic, gradient and metal-like mechanical behaviors of teeth and their implications on tooth functions Chinese Science Bulletin. 2007,52(17)2310-2315

[15]Wenjun Ma, Li Song, Rong Yang, Taihua Zhang, et al. Directly Synthesized Strong, Highly Conducting, Transparent Single-Walled Carbon Nanotube Films. Nano Letters. 2007,7(8):2307-2311

[16]L.C. Zhang, B.C. Wei, D.M. Xing, T.H. Zhang, W.H. Li, Y. Liu The characterization of plastic deformation in Ce-based bulk metallic glasses. Intermetallics 2007,15:791-795

[17]W.H. Li, B.C. Wei, T.H. Zhang, D.M. Xing, L.C. Zhang, Y.R. Wang. Study of serrated flow and plastic deformation in metallic glasses through instrumented indentation. Intermetallics. 2007,15:706-710

[18]刘东旭, 张泰华, 郇勇. 宏观深度测量压入仪器的研制. 力学学报. 2007,39(3):350-355

[19]Dongmei Xing, Taihua Zhang, Weihuo Li, Bingchen Wei. The Characterization of Plastic Flow in Three Different Bulk Metallic Glass Systems. Journal of Alloys and Compounds. 2007,433:318-323

[20]B.C. Wei, T.H. Zhang, L.C. Zhang, D.M. Xing, W.H. Li, Y. Liu. Plastic deformation in Ce-based bulk metallic glasses during depth-sensing indentation. Materials Science and Engineering A. 2007,449-451:962-965

[21]Weimin Chen, Min Li, Taihua Zhang, Yang-Tse Cheng, Che-Min Cheng. Influence of indenter tip roundness on hardness behavior in nanoindentation. Materials Science and Engineering A. 2007,445-446:323-327

[22]B.C. Wei, L.C. Zhang, T.H. Zhang, D.M. Xing, J. Das, J. Eckert. Strain rate dependence of plastic flow in Ce-based bulk metallic glass during nanoindentation. J. Mater. Res. 2007,22(2):258-263

[23]L.C. Zhang, B.C. Wei, D.M. Xing, T.H. Zhang, W.H. Li, Y. Liu. The characterization of plastic deformation in Ce-based bulk metallic glasses. Intermetallics. 2007,15:791-795

[24]Y. Chen, T.H. Zhang, C.H. Gan, G. Yu. Wear studies of hydroxyapatite composite coating reinforced by carbon nanotubes. Carbon. 2007,45:998-1004

[25]HUAN Yong, ZHANG Taihua, YANG Yemin. In-plane load measuring technique for the strength test of MEMS micro-cantilever. Chinese Science Bulletin. 2006,51(23):2819-2823

[26]Xiaobo Zhang, Kaili Jiang, Chen Feng, Peng Liu, Lina Zhang, Jing Kong, Taihua Zhang, Qunqing Li, and Shoushan Fan. Spinning and processing continuous yarns from 4-inch wafer scale super-aligned carbon nanotube arrays. ADVANCED MATERIALS. 2006,18(12):1505-1510

[27]Xing DM, Zhang TH, Li WH, et al. Characterization of plastic flow in two Zr-based bulk metallic glasses. SCIENCE IN CHINA SERIES E-TECHNOLOGICAL SCIENCES. 2006,49(4):414-424

[28]LIU Yuan, ZHANG Tai-Hua, WEI Bing-Chen, XING Dong-Mei, Li Wei-Huo, ZHANG Ling-Chen. Effect of Structural Relaxation on Deformation Behaviour of Zr-Based Metallic Glass. Chin. Phys. Lett. 2006,23(7):1868-1871

[29]Zhang LC, Xing DM, Zhang TH, et al. Deformation behavior during nanoindentation in Ce-based bulk metallic glasses. Chinese Science Bulletin. 2006,51(13):1639-1643

[30]Zhou ZM, Zhou Y, Wang MJ, et al. Evaluation of Young's modulus and residual stress of NiFe film by microbridge testing. JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY. 2006,22(3):345-348

[31]Ruan Y, Huan Y, Zhang DC, et al. On line measurement of maximal torsional strength of micro level structure. ACTA PHYSICA SINICA. 2006,55(5):2234-2240

[32]Dejun Ma, Taihua Zhang, Chung Wo Ong. Revelation of a functional dependence of the sum of two uniaxial strengths/hardness on elastic work/total work of indentation. J. Mater. Res. 2006,21(4): 895-903

[33]Dejun Ma, Taihua Zhang, Chung Wo Ong. Evaluation of effectiveness of representative methods for determining Young’s modulus and hardness from instrumented indentation results. J. Mater. Res. 2006,21(1):225-233

[34]W. H. Li, T. H. Zhang, D. M. Xing, B. C. Wei, Y. R. Wang, Y. D. Dong. Instrumented indentation study of plastic deformation in bulk metallic glasses. J. Mater. Res. 2006,21(1):75-81

[35]Y. Chen, Y.Q. Zhang, T.H. Zhang, C.H. Gan, C.Y. Zheng, G. Yu. Carbon nanotube reinforced hydroxyapatite composite coatings produced through laser surface alloying. Carbon. 2006, 44:37–45

[36]T. H. Zhang, Y. Huan. Nanoindentation and nanoscratch behaviors of DLC coatings on different steel substrates. Composites Science and Technology. 2005,65:1409-1413

[37]Yao Chen, Cuihua Gan, Taihua Zhang, Gang Yu. Laser-surface-alloyed carbon nanotubes reinforced hydroxyapatite composite coatings. Applied Physics Letters. 2005,86,251905

[38]Bingchen Wei, Taihua Zhang, Weihuo Li, Dongmei Xing, Lingchen Zhang, Yuren Wang. Indentation Creep Behavior in Ce-Based Bulk Metallic Glasses at Room Temperature. Materials Transactions. 2005,46(12): 2959-2962

[39]Weihuo Li, Bingchen Wei, Taihua Zhang, Lingchen Zhang, Yuanda Dong. Mechanical Behavior of Zr65Al10Ni10Cu15 and Zr52.5Al10Ni10Cu15Be12.5 Bulk Metallic Glasses. Materials Transactions. 2005,46(12): 2954-2958

[40]XING Dong-Mei, ZHANG Tai-Hua,WEI Bing-Chen. Deformation Morphology underneath the Vickers Indent in Bulk Metallic Glasses. Chinese Physics Letters. 2005,22(8):1994-1997

[41]T. H. Zhang, Y. Huan. Substrate effects on the micro/nanomechanical properties of TiN coatings. Tribology Letters. 2004,17(4):911-916

[42]B.C. Wei, T.H. Zhang, W.H. Li, Y.F. Sun, Y. Yu, Y.R. Wang. Serrated plastic flow during nanoindentation in Nd-based bulk metallic glasses. Intermetallics. 2004,12:1239-1243

[43]Liu Dong-xu, Zhang Tai-hua. An New Area Function for Sharp Indenter Tips in Nanoindentation. Chinese Journal of Aeronautics. 2004,17(3):159-164

[44]Zhang Taihua, Bai Yilong, Wang Shiying, Liu Peide. Damage of a High-Energy Solid Propellant and Its Deflagration-to-Detonation Transition. Propellants, Explosives, Pyrotechnics. 2003, 28(1):37-42

[45]Zhang Taihua, Huan Yong, Wang Xiulan. Micromechanical Characterization of TiN films on 9Cr18 steels. International Journal of Nonlinear Sciences and Numerical Simulation. 2002,3(3-4): 649-652

[46]张泰华,杨业敏. 纳米硬度技术的发展和应用. 力学进展. 2002, 32(3):349-364

[47]张泰华,杨业敏,赵亚溥,白以龙. MEMS材料力学性能的测试技术. 力学进展. 2002, 32(4):545-562

[48]张泰华,杨业敏. 纳米硬度技术在表面工程力学性能检测中的应用. 中国机械工程, 2002,13(24):2148-2151

[49]T. H. Zhang, S. Y. Wang, P. D. Liu. Safety assessment studies of a damaged high-energy solid propellant. Journal of Energetic Materials. 2002,20(2):175-189

[50]Zhang Taihua, Bian Taohua. A New Ignition Criterion Based Upon a Critical Thermal Energy Density. Journal of Energetic Materials, 2001,19(4):305-337

[51]Zhang Taihua, Bai Yilong, Wang Shiying, Liu Peide. Damage of a High-Energy Solid Propellant and Its Effects on Combustion. Acta Mechanica Sinica, 2001,17(4): 348-353

专利：

授权发明专利

[1] 张泰华,冯义辉,杨荣,姜鹏. 一种提取材料断裂韧度的方法. 中国. 发明专利. ZL 200910085255.1. 授权日2011-01-05

[2]张泰华,郇勇,杨业敏. 微力学测试仪及其测试方法. 中国. 发明专利. ZL200410080144.9. 授权日2009-5-20

[3]张泰华,郇勇,刘东旭,杨业敏. 材料试验机的压痕测试功能改进方法及其改进装置. 中国. 发明专利. ZL200410078245.2. 2008-8-20

[4]张泰华,郇勇,杨业敏,刘东旭. 电磁式微力学压痕测试仪及其测试方法. 中国. 发明专利. ZL200410074534.5. 2007-12-26

[5]张泰华. 微加速度计电磁校准装置及其方法. 中国. 发明专利. ZL02156508.2. 2006-02-08

[6]张泰华,郇勇,杨业敏. 微加速度计连续速度测量冲击校准方法及装置. 中国. 发明专利. ZL02129025.3. 2005-11-09

[7]杨业敏,夏生杰,张泰华. 赛络纺远红外断纱识别器. 中国. 发明专利. ZL01129344.6. 2005-06-22

[8]杨业敏,丁雁生,陈力,张泰华. 用于脉冲X光自动跟踪插件及自动跟踪方法. 中国. 发明专利. 01130822.2. 2004-09-01

授权实用新型专利

[1] 宋金龙,张泰华,冯义辉. 一种仪器化压入试验的夹具. 中国. 实用新型专利. ZL201010146460.7. 授权日2010-08-18

[2]张泰华,郇勇,杨业敏. 一种利用压入方式对材料力学性能进行测试的装置. 中国. 实用新型专利. ZL2004200933778. 2005-09-28

[3]郇勇,张泰华, 杨业敏.具有自动对心功能的夹具. 中国. 实用新型专利. ZL2004200879311. 2005-08-17

[4]张泰华,郇勇,杨业敏. 电磁式微加速度计冲击校准装置. 中国. 实用新型专利. 02291092.1. 2004-07-28

[5]郇勇,张泰华,丁雁生,杨业敏. 弹簧式微加速度计校准冲击装置. 中国. 实用新型专利：02252863.6，2003-08-20

[6]张泰华,郇勇,杨业敏. 一种单激光束测速装置. 中国. 实用新型专利. 03242049.8. 2003-10-22

[7]张泰华,郇勇,杨业敏. 磁电式高频冲击速度传感器. 中国. 实用新型专利. 02252862.8. 2003-11-26

计算机软件著作权登记

[1] 基于仪器化压入方法的数据处理和分析软件. 软著登字第0163616号. 登记号2009SR036617. 完成时间2009-06-15. 发表时间2009-07-01

承担科研项目情况：

负责的研究项目：

1. 国家自然科学基金委员会基金项目

杰出青年——实验固体力学(2011.1～2014.12，批准号：11025212)

面上项目——压入蠕变表征方法的研究(2009.1～2011.12，批准号：10872200)

面上项目——深度测量压入仪器的研制及其测试方法的研究(2006.1～2008.12，批准号：10572142)

面上项目——高量程微加速度计中关键力学检测技术的研究(2004.1～2006.12，批准号：10372103)

主任基金——微加速度计失效行为研究(2003.1～2003.12，批准号：10242001)

青年基金——微加速度计失效行为的研究(2002.1～2002.12，批准号：10102021)

2. 中国科学院项目

创新方向性项目——“纳米材料和纳米测量中的若干基础标准研究”子课题7“仪器化纳米压入国家标准的研究(2006～2010)”

十五装备项目——微型材料的力学性能检测与全场光学测量系统(2002～2004，批准号：SYLXSO9)

3. 科技部和国家质检总局公益科研专项项目

仪器化纳米压入能量方法的研究(2007.7～2008.9，批准号：10-155)

参加的研究项目:

1. 国家重大科学研究计划

纳米研究计划——重要纳米检测技术的标准化(2006～2010，批准号：2006CB932500)

2. 国家自然科学基金委员会基金项目

重点项目——微-纳米尺度力学行为测量中的若干基本力学问题研究(2005.1～2008.12，批准号：10432050)