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张涛
2020-05-08 14:57   审核人:

文本框:  张涛 教授

博士生导师,学科带头人

教育背景:博士

研究领域 材料物理

研究方向:核材料、金属材料、辐照损伤

电子邮箱: zhangtao@issp.ac.cn

所在系所: 物理系

                                        办公地点:理学实验楼236

 

 

个人简介

    毕业于中国科学技术大学,获得博士学位。洪堡学者。瑞士Paull Scherrer Institute中科院公派访问学者/博士后。2017-2019在中国科学院合肥物质科学院研究院历任助理研究员、副研究员、研究员/博士生导师。

    主要从事难熔金属、高熵合金、核聚变关键材料及辐照损伤研究,已经在Acta Mater, J. Nucl. Mater.Phys. Rev. B, App. Phys. Lett., J. Am. Chem. Sco.,等期刊上发表论文120余篇,合著英文专著中的一章,获得国家发明专利授权6项。获得安徽省自然科学二等奖。主持参与多项国家自然科学基金、国家磁约束核聚变专项、中科院ADS战略先导专项。有色金属产业创新联盟专家委员会委员;有色金属学会会员;教育部学位论文评审专家。Scientific ReportsModern Materials Science and Technology杂志编委。

 

 

担任主要课程

 

本科生课程:大学物理 

 

主持课题

1.  高性能部件级核聚变面向等离子体材料设计制备,150万,广州大学百人计划,(2019-2024

2.  多尺度界面结构协同提升钨基材料综合性能及机理研究75万,国家自然科学基金面上项目(2018-2021

3.  微量TaTaC协同调控W基合金晶界/相界及其提高材料综合性能的机理90万,国家自然科学基金面上项目(2016-2019

4. 晶粒细化、Al元素、ZrHfSc)微量元素协同效应对核结构材料ODS钢的耐腐蚀性和力学性能的优化及机理研究,95万,国家自然科学基金面上项目(2014-2017

5.  部件级高性能面向等离子体材料研究,10万,国家友好环境与能源重点实验室开放课题 2019-2020),

6.  实验与计算模拟相结合研究材料辐照损伤和氢氦效应机理--低活化钢中子辐照损伤实验研究,100万,科技部磁约束核聚变专项子课题任务 2011-2014

7.  未来先进核裂变能-ADS嬗变系统——ADS相关结构材料研究,中科院战略先导科技专项,120万,子课题任务(2011-2015

8.  衬底的反压电效应对锰氧化薄膜电荷有序的原位调控及机理研究24万,国家自然科学基金青年项目(2010-2012

9.  抗辐照弥散强化物钨基材料研究,10万,中科院等离子物理研究所核聚变大科学装置-横向研发课题 (2018

10.超强ODS合金研发,20万, 江苏新羽立材料科技有限公司,横向课题(2017-2018

11.高性能大块体W-ZrC合金制备及性能评估,6万,中科院大科学中心项目(2016

12.Al基复合阻尼材料的制备及性能研究, 5万,安徽省自然科学基金 2009-2012

参与课题

         高辐照场下的材料研究,350万,中国科学院知识创新工程重要方向性项目(2010-2015

主要论文

1)     Y. K. Wang, Z. M. Xie, M. M. Wang, H. W. Deng, J. F. Yang, Y. Jiang, T. Zhang*, X. P. Wang, Q. F. Fang, C. S. Liu, “The superior thermal stability and tensile properties of hot rolled W-HfC alloys”, Journal of Refractory Metals & Hard Materials, 81 (2019) 84

2)     R. Wang, Z. M. Xie, Y. K. Wang, J. P. Song, Q. F. Fang*, R. Liu, J. F. Yang, T. Zhang*,X. P. Wang, C. S. Liu,Fabrication and characterization of nanocrystalline ODS-W via a dissolution-precipitation process, International, Journal of Refractory Metals & Hard Materials, 80 (2019)104.

3)     H. W. Deng, Z. M. Xie*, Y. K. Wang, R. Liu, T. Zhang*, X. P. Wang,Q. F. Fang and C. S. Liu, Tailoring mechanical properties of a CoCrNi medium-entropy alloy by controlling nanotwin-HCP lamellae and annealing twinsMaterials Science & Engineering A 744 (2019) 24

4)     T. Zhang*Z. M. Xie, S. Miao, Q. F. Fang and C.S. Liu Recent Progress of Oxide/Carbide Dispersion Strengthened W-Based Materials, Acta  Metalliurgia Sinica , 54 (2018) 831 (约稿)

5)     张 涛, 吴学邦,谢卓明, 李祥艳, 刘 瑞, 王先平, 方前锋, 刘长松, 核聚变第一壁用W-ZrC 材料研究进展与展望 中国材料进展,372018311 (约稿)

6)      R. Liu, Z.M. Xie, X. Yao, T. Zhang*, X.P. Wang, T. Hao, Q.F. Fang, C.S. Liu, Recent progress on the R&D of W-ZrC alloys for plasma facing components in fusion devices ,Nuclear Materials and Energy 16 (2018) 191(约稿)

7)      R. Liu, Z.M. Xie, X. Yao, T. Zhang*, X.P. Wang, T. Hao, Q.F. Fang*, C.S. Liu, Effects of swaging and annealing on the microstructure and mechanical properties of ZrC dispersion-strengthened tungsten, International Journal of Refractory Metals & Hard Materials 76 (2018) 33

8)      H.L. Ding, Z.M. Xie, Q.F. Fang*, T. Zhang*, Z.J. Cheng, Z. Zhuang, X.P. Wang, C.S. Liu, Determination of the DBTT of nanoscale ZrC doped W alloys through amplitude-dependent internal friction technique Materials Science & Engineering A 716 (2018) 268.

9)     H. W. Deng, Z. M. Xie, Y. K. Wang, R. Liu,T. Zhang*,X. P. Wang,Q. F. Fang and C. S. LiuMechanical properties and thermal stability of pure W and W-0.5 wt%ZrC alloy manufactured with the same technology Materials Science & Engineering A 715 (2018) 117

10)  Z.M. Xie , S. Miao , T. Zhang*, R. Liu , X.P. Wang , Q.F. Fang, T. Hao , Z. Zhuang , C.S. Liu , Y.Y. Lian, X. Liu , L.H. Cai, Recrystallization behavior and thermal shock resistance of the W-1.0 wt% TaC alloy Journal of Nuclear Materials 501 (2018) 282.

11)  Z. M. Xie, S. Miao, R. Liu, L. F. Zeng, T. Zhang*, Q. F. Fang, C. S. Liu, X. P. Wang, Y. Y. Lian, X. Liu and L. H. Cai,Recrystallization and thermal shock fatigue resistance of nanoscale ZrC dispersion strengthened Walloys as plasma-facing components in fusion devices Journal of Nuclear Materials 496 (2017) 41-53.

12)  S. Miao, Z. Xie, X. Yang, R. Liu, R. Gao, T. Zhang*, X. Wang, Q. Fang, C. Liu, G. Luo, Int. J. Refract. Met. Hard Mater, 56 (2016) 8-17.

13)  S. Miao, Z.M. Xie, L.F. Zeng, T. Zhang*, X.P. Wang, Q.F. Fang, C.S. Liu, G.N. Luo, X. Liu, The mechanical properties and thermal stability of a nanostructuredcarbide dispersion strengthened W-0.5 wt.% Ta-0.01 wt.% C alloy Fusion  Engineering  and  Design 125(2017)490.

14)  S. Miao, Z.M. Xie, L.F. Zeng, T. Zhang*, X.P. Wang, Q.F. Fang, C.S. Liu, Mechanical properties, thermal stability and microstructure of fine-grained W-0.5 wt.% TaC alloys fabricated by an optimized multi-step process ,Nuclear Materials and Energy. 13 (2017) 12.

15)  Y. K. Wang, S. Miao, Z. M. Xie, R. Liu, T. Zhang*, Q. F. Fang*, X. P. Wang, C. S. Liu, Thermal stability and mechanical properties of HfC dispersion strengthened W alloys as plasma-facing components in fusion devices Journal of Nuclear Materials 492 (2017) 260.

16)   S. Miao, Z.M. Xie, T. Zhang*, X.P. Wang, Q.F. Fang*, C.S. Liu, G.N. Luo, X. Liu, Y. Y. Lian, Mechanical properties and thermal stability of rolled W-0.5 wt% TiC alloys Mater. Sci. Eng. A 671 (2016) 87-95.

17)  L. Zeng, Q. Fang, X. Wang, Z. Xie, S. Miao, T. Zhang, High strength and thermal stability of bulk Cu/Ta nanolamellar multilayers fabricated by cross accumulative roll bonding, Acta Mater., 110 (2016) 341-351.

18) R. Liu, Z. M. Xie, Q.F. Fang*,T. Zhang*, X.P. Wang, T. Hao, C.S. Liu and Y. Dai, “Nanostructured yttria dispersion-strengthened tungsten synthesized by sol-gel method”, Journal of Alloys and Compounds657 (2016)73

19)  L. S. Kadyrov, T. Zhang, E. S. Zhukova, V. B. Anzin, V. G. Trotsenko, V. I. Torgashev, M. Dressel, and B. P. Gorshunov, Bandlike electrical transport in Pr1-xCaxMnO3 manganites,Phys. Rev. B 93(2016)184303.

20)  Z. M. Xie, R. Liu, S. Miao, T. Zhang*, Q.F. Fang, C. S. Liu*, G. N. Luo, X. LiuAchieving high strength/ductility in bulk W-Zr-Y2O3 alloy plate with hybrid microstructure,Materials and Design 107 (2016) 144–152

21) Z. M. Xie, R. Liu, S. Miao, X. D. Yang, T. Zhang*, X. P. Wang, Q.F. Fang, C. S. Liu*, G. N. Luo, Y. Y. Lian and X. Liu*, “High thermal shock resistance of the hot rolled and swaged bulk W–ZrC alloys” Journal of Nuclear Materials 469 (2016) 209.

22)  X. D. Yang, Z. M. Xie, S. Miao, R. Liu, W. B. Jiang, T. Zhang*,X. P. Wang, Q. F. Fang, C. S. Liu*,, G. N. Luo, and X. Liu “Tungsten-zirconium carbide-rhenium alloys with extraordinary thermal stability” Fusion Engineering and Design, 106 (2016) 56

23)  Z. M. Xie, R. Liu, S. Miao, X. D. Yang, T. Zhang*, X. P. Wang, Q.F. Fang*, C. S. Liu*, G. N. Luo, Y. Y. Lian and X. Liu, “Extraordinary high duclity/strength of the interface designed bulk W-ZrC alloy plate at relavely low temperature” Scientific Reports 5 (2015) 16014.

24) Z. M. Xie, R. Liu , S. Miao , T. Zhang*, X. P. Wang*, Q. F. Fang, C. S. Liu, and G. N. Luo “Effect of high temperature swaging and annealing on the mechanical properes and thermal conducvity of W–Y2O3Journal of Nuclear Materials 464 (2015) 193.

25) R. Gao, T. Zhang*, H. L. Ding, Y. Jiang, X.P. Wang, Q.F. Fang*, C.S. LiuAnnealing effects on the microstructure and mechanical properes of hot-rolled 14Cr-ODS steelJournal of Nuclear Materials465 (2015) 268.

26)  L. Song, X. P.Wang*, F. Liu, Y.X. Gao, T. Zhang*, G.N. Luo, Q.F. Fang , C.S. Liu, “Microstructure and He desorpon behaviors of He charged FeCrNi-based films fabricated by direct current magnetron sputtering” Thin Solid Films 589 (2015) 627.

27)  H.L. Ding, R. Gao, T. Zhang*, X.P. Wang, Q.F. Fang*, C.S. Liu “Annealing effect on the microstructure and magnec properesof 14%Cr-ODS ferric steel”. Fusion Engineering and Design, 100 (2015), 371

28)  .T.  Zhang*,X. P. Wang,Q. F.Fang,X. G. Li, Magnetic andcharge ordering in nanosized manganites,Applied Physics Reviews1 (2014) 031302. (约稿)

29)   T. Zhang, C. Vieh, K. Wang, Y. Dai*Irradiaon induced mechanic properes and microstructure evoluon of ferric/martensic Eurofer 97Journal of Nuclear Materials450(2014) 48.

出版专著/教材

T. Zhang, G. Q. Zhang, X. L. Lu, and X. G. Li, “Microstucture, electronic, magnetic and thermoelectric properties of Nanoscaled Electroceramics”, a chapter in “Handbook of Nanoceramics and Their Based Nanodevices”. 5 Volume, American Scientific Publishers, edited by T. Y. Tseng and H. S. Nalwa, 2006, ISBN-10: 1588831140 ISBN-13: 978-1588831149.

 

主要专利授权

1.     纳米氧化物弥散强化铁素体合金钢粉体制备方法, ZL 201110154483.7孙钦星,张涛,王先平,方前锋,郝汀,刘长松

2.     一种纳米结构W-ZrC合金及制备方法,ZL 2014 10553021.6, 刘瑞,谢卓明,方前锋,张涛,王先平,郝汀

 

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