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张建

张建

电话:

邮箱:zhangjian@xmu.edu.cn

研究方向: 核材料辐照损伤,陶瓷固化核废料辐照效应

个人履历


研究工作简历:

2021.8-至今  云顶4008集团手机登录,教授

2015.8-2021.7  云顶4008集团手机登录,副教授

2011.2-2015.7  云顶4008集团手机登录,助理教授

2013.5-2014.4  美国洛斯阿拉莫斯国家实验室,离子束材料中心,访问学者

教育经历:

2010.10-2011.1 兰州大学,核科学与技术学院,博士

2009.10-2010.9 美国洛斯阿拉莫斯国家实验室,离子束与材料实验中心,研究生(获得Seaborg 研究生奖学金)

2007.10-2009.9 美国洛斯阿拉莫斯国家实验室,离子束与材料实验中心,国家公派联合培养博士

2005.9-2007.9,兰州大学,核科学与技术学院,免试硕博连读研究生

2001.9-2005.7,兰州大学,核科学与技术学院,学士

研发方向


1、先进核应用材料的辐照损伤与机理研究

2、高放核废物固化体的制备与辐照效应研究

3、离子注入机技术及应用

4、中子屏蔽与核探测研究

承担课题


磷灰石固化体的双束原位辐照损伤研究,国家自然基金委面上项目,2021.1.2024.12,项目批准号:12075200,直接费用:63万,主持

利用重离子束探针诊断研究高约束模式下芯部输运垒形成的微观机制,国家自然科学基金委联合重点支持项目,2020.1-2023.12,参与

陶瓷涂层锆合金包壳材料的辐照效应研究,福建省面上项目,2017.4-2020.3,主持

辐照效应实时原位分析装置的联机部件研制,国家自然基金委仪器专项,2013.1-2019.12,参与

应急车辆的伽玛辐射屏蔽模拟研究,西安中核核仪器有限公司,2018.10-2018.12,主持

A4Zr3O12陶瓷材料的高温辐照损伤机理研究,国家自然基金委青年基金,2013.1-2015.12,主持

建设“多离子束加速器与透射电子显微镜联机设施实验室”,中科华核电技术研究院有限公司,2014.5-2016.12

核电站材料监测管理、失效预防及消除技术的开发和应用,福建省发改委,2011.1-2015.12,参与

核电反应堆安全高效型核燃料的研究与设计,中央高校基本科研业务费,2012.5.2014.12 参与

行波堆候选材料高剂量离子辐照效应研究、金属燃料和包壳预研及行波堆经济性分析,中科华核电技术研究院有限公司,2011.8-2014.12,参与

代表性论著


[1] Z. Lin, C. Wu, H. He, S. Jiang, F. Ren, L. Cao*, Z. Huan*, J. Zhang*, In-situ transmission electron microscopy observation of the helium bubble evolution in pre-irradiated fluorapatite during annealing, Ceram. Int., 47 (2021) 16521-16527.

[2] S. Jiang, R. Zhu, M. Chen, H. He, Z. Lin, X. Hu, J. Zhang*, L. Cao*, Z. Huang, In-situ He+ irradiation induced crystallization on crystalline/amorphous ZrC films, Materials Today Communications, 28 (2021) 102580.

[3] H. He, Q. Xie, Z. Lin, S. Jiang, X. Hu, M. Tang*, J. Zhang*, The comparison of bulk and in-situ irradiation damage on cubic-Lu2TiO5 and orthorhombic-La2TiO5, Nucl. Instrum. Methods Phys. Res., Sect. B, 498 (2021) 34-38.

[4] H. He, Z. Lin, S. Jiang, X. Hu, J. Zhang*, Z. Huang*, In-Situ TEM Annealing Observation of Helium Bubble Evolution in Pre-Irradiated FeCoNiCrTi0.2 Alloys, Materials, 14 (2021) 3727.

[5] R. Zhu, H. He, Z. Lin, S. Jiang, J. Zhang*, Amorphous/crystalline ZrC alternating multilayers deposited by magnetron sputtering at room temperature, Materials Today Communications, 24 (2020) 101143.

[6] C. Ye, J. Zhang*, C.Y. Wu, H.H. He, M. Tang, Heavy Kr ion irradiation-induced amorphization on fluorapatite Ca10-2xLaxNax(PO4)6F2 (x=0.2 and 2)waste form with varying La loading, J. Alloys Compd., 822 (2020) 153756.

[7] C.-Y. Wu, T.-T. Gao, Z.-W. Lin, Y. Zhang, H.-H. He, J. Zhang*, Bubble Formation in Apatite Structures by He-Ion Irradiation at High Temperature, Chin. Phys. Lett., 37 (2020) 056101.

[8] 叶成, 张建*, 付上朝, 朱瑞华, 吴采宇, Kr2+辐照导致的Ca8LnNa(PO4)6F2(Ln=La,Nd和Sm) 磷灰石结构陶瓷材料的非晶转变, 原子核物理评论, 36 (2019).

[9] 付上朝, 张建*, 谢秋荣, 叶成, 郭奇勋, Lu2Ti2O7和Lu2TiO5陶瓷材料的Kr离子辐照损伤研究, 原子核物理评论, 36 (2019).

[10] J. Zhang*, Q.R. Xie, X.N. Dong, X.L. Jiao, N. Li, Light He and heavy Kr ions irradiation effects in orthorhombic Tb2TiO5 ceramics, Nucl. Instrum. Methods Phys. Res., Sect. B, 441 (2019) 88-92.

[11] L.X. Yang, H.L. Ge, J. Zhang, T. Xiong, Q.Q. Jin, Y.T. Zhou, X.H. Shao, B. Zhang, Z.W. Zhu, S.J. Zheng, X.L. Ma, High He-ion irradiation resistance of CrMnFeCoNi high-entropy alloy revealed by comparison study with Ni and 304SS, Journal of Materials Science & Technology, 35 (2019) 300-305.

[12] Z.M. Wu, J. Zhang, J.C. Huang, Y. Fan, X.H. Yu, Y.B. Zhao, J.L. Zhu, C.Q. Jin, P. Wang, E.G. Fu, Nanocrystalline W-based alloys with ultrahigh hardness and exceptional irradiation tolerance, Nucl. Fusion, 59 (2019) 14.

[13] S.H. Li, J. Zhang, W.Z. Han, Helium bubbles enhance strength and ductility in small-volume Al-4Cu alloys, Scr. Mater., 165 (2019) 112-116.

[14] J.L. Du, Y.H. Qiu, J. Zhang, J.C. Huang, Z.M. Wu, X.F. Zhang, Y.H. Wang, J.K. Baldwin, Y.Q. Wang, Y.G. Wang, E.G. Fu, The alleviation of radiation-damage on Nb/MgO film driven by strain gradient in He ion irradiation, Appl. Surf. Sci., 465 (2019) 1014-1018.

[15] H. Chen, J. Du, Y. Liang, P. Wang, J. Huang, J. Zhang, Y. Zhao, X. Wang, X. Zhang, Y. Wang, G.A. Stanciu, E. Fu, Comparison of Vacancy Sink Efficiency of Cu/V and Cu/Nb Interfaces by the Shared Cu Layer, Materials, 12 (2019).

[16] 董晓囡, 张建*, 郭奇勋, 焦绪丽, 林绍辰, 李宁, Kr离子辐照磷灰石陶瓷材料Ca10(PO4)6FxCl2-x(x=0,0.5,1.0,1.5和2.0)导致的非晶相变, 厦门大学学报(自然科学版), 57 (2018) 38-43.

[17] 焦绪丽, 张建*, 谢秋荣, 付上朝, 吴采宇, 曹留烜, 郭奇勋, 轻、重离子辐照烧绿石Lu2Ti2O7导致的非晶结构变化, 厦门大学学报(自然科学版), 57 (2018) 623-628.

[18] M. Wang, I.J. Beyerlein, J. Zhang, W.Z. Han, Defect-interface interactions in irradiated Cu/Ag nanocomposites, Acta Mater., 160 (2018) 211-223.

[19] W. Qin, F. Ren, J. Zhang, X. Dong, Y. Feng, H. Wang, J. Tang, G. Cai, Y. Wang, C. Jiang, Helium retention in krypton ion pre-irradiated nanochannel W film, Nucl. Fusion, 58 (2018).

[20] S. Lin, J. Zhang*, R. Zhu, S. Fu, D. Yun*, Effects of sputtering pressure on microstructure and mechanical properties of ZrN films deposited by magnetron sputtering, Mater. Res. Bull., 105 (2018) 231-236.

[21] Y.X. Liang, Y.J. Sun, X.Y. Wang, E.G. Fu, J. Zhang, J.L. Du, X.D. Wen, S.J. Guo, High electrocatalytic performance inspired by crystalline/amorphous interface in PtPb nanoplate, Nanoscale, 10 (2018) 11357-11364.

[22] 谢秋荣, 张建, 董晓囡, 焦绪丽, 李宁*, 正交结构 Gd 2 TiO 5 陶瓷材料的轻重离子辐照效应比较研究, 厦门大学学报(自然科学版), 56 (2017).

[23] L.X. Yang, S.J. Zheng, Y.T. Zhou, J. Zhang, Y.Q. Wang, C.B. Jiang, N.A. Mara, I.J. Beyerlein, X.L. Ma, Effects of He radiation on cavity distribution and hardness of bulk nanolayered Cu-Nb composites, J. Nucl. Mater., 487 (2017) 311-316.

[24] J. Huang, N. Li, Y. Zhang, Q. Guo, J. Zhang, The safety analysis of a small pressurized water reactor utilizing fully ceramic microencapsulated fuel, Nucl. Eng. Des., 320 (2017) 250-257.

[25] W.-Z. Han, J. Zhang, M.-S. Ding, L. Lv, W.-H. Wang, G.-H. Wu, Z.-W. Shan, J. Li, Helium Nanobubbles Enhance Superelasticity and Retard Shear Localization in Small-Volume Shape Memory Alloy, Nano Lett., 17 (2017) 3725-3730.

[26] M. Tang, J.A. Valdez, Y. Wang, J. Zhang, B.P. Uberuaga, K.E. Sickafus, Ion irradiation-induced crystal structure changes in inverse spinel MgIn2O4, Scr. Mater., 125 (2016) 10-14.

[27] S. Zheng, S. Shao, J. Zhang, Y. Wang, M.J. Demkowicz, I.J. Beyerlein, N.A. Mara, Adhesion of voids to bimetal interfaces with non-uniform energies, Scientific Reports, 5 (2015).

[28] J. Zhang*, Y.Q. Wang, M. Tang, C. Sun, D.M. Yin, N. Li, Helium irradiation induced micro-swelling and phase separation in pyrochlore Lu2Ti2O7, Nucl. Instrum. Methods Phys. Res., Sect. B, 342 (2015) 179-183.

[29] J. Zhang*, M.K. Patel, Y.Q. Wang, M. Tang, J. Won, J.A. Valdez, K.E. Sickafus, Strong irradiation tolerance to amorphization in delta-Sc4Ti3O12, J. Nucl. Mater., 459 (2015) 265-269.

[30] Q.-R. Xie, J. Zhang*, D.-M. Yin, Q.-X. Guo, N. Li, Krypton ion irradiation-induced amorphization and nano-crystal formation in pyrochlore Lu2Ti2O7 at room temperature, Chin. Phys. B, 24 (2015) 126103-126103.

[31] Q.R. Xie, J. Zhang*, X.N. Dong, Q.X. Guo, N. Li, Heavy ion irradiation-induced microstructural evolution in pyrochlore Lu2Ti2O7 at room temperature and 723 K, J. Solid State Chem., 231 (2015) 159-162.

[32] X. Su, C. Liu, D. Yang, J. Wen, E. Fu, J. Zhang, L. Chen, D. Xu, Y. Wang, Y. Li, The structural behavior of SrTiO 3 under 400 keV Ne 2+ ion irradiation, Appl. Phys. A, 121 (2015) 1211-1217.

[33] B. Tang, J. Zhang, R. Ma, Y. Ma, Q. Huang, L. Chen, B. Cui, Y. Wu, N. Li, W. Jiang, A Triple Beam In-Situ Facility at Xiamen University, Materials Transactions, 55 (2014) 410-412.

[34] G. Ran, J. Xu, Q. Shen, J. Zhang, N. Li, L. Wang, In situ TEM observation of growth behavior of Kr bubbles in zirconium alloy during post-implantation annealing, Nucl. Instrum. Methods Phys. Res. , Sect. B, 307 (2013) 516-521.

[35] O. Anderoglu, M.J. Zhou, J. Zhang, Y.Q. Wang, S.A. Maloy, J.K. Baldwin, A. Misra, He+ ion irradiation response of Fe-TiO2 multilayers, J. Nucl. Mater., 435 (2013) 96-101.

[36] J. Zhang*, Y.Q. Wang, J.A. Valdez, M. Tang, J. Won, K.E. Sickafus, Ion irradiation-induced phase transformations in δ–γ–β phases of Sc2O3–ZrO2 mixtures, Nucl. Instrum. Methods Phys. Res., Sect. B, 272 (2012) 244-248.

[37] J. Zhang*, Y.Q. Wang, J.A. Valdez, M. Tang, K.E. Sickafus, Irradiation induced order–disorder phase transformation in A4Zr3O12 (A = Sc, Lu and Dy), J. Nucl. Mater., 419 (2011) 386-391.

[38] J. Zhang*, Y.Q. Wang, M. Tang, J.H. Won, J.A. Valdez, K.E. Sickafus, Order-to-disorder transformation in delta-phase Sc4Zr3O12 induced by light ion irradiation, J. Mater. Res., 25 (2010) 248-254.

[39] J. Zhang*, Y.Q. Wang, M. Tang, J.A. Valdez, K.E. Sickafus, Ion irradiation induced order-to-disorder transformations in [delta]-phase Sc4-xZr3+xO12+x/2, Nucl. Instrum. Methods Phys. Res., Sect. B, 268 (2010) 3018-3022.

[40] Y.Q. Wang, J. Zhang, J.R. Tesmer, Y.H. Li, R. Greco, G.P. Grim, A.W. Obst, R.S. Rundberg, J.B. Wilhelmy, Determination of 13C/12C ratios with (d, p) nuclear reactions, Nucl. Instrum. Methods Phys. Res., Sect. B, 268 (2010) 2099-2103.

[41] J. Wang, J. Zhang, J. Gu, X. Luo, B. Hu, Highly charged Ar^{q+} ions interacting with metals, Physical Review A, 80 (2009) 062902.

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