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    张昭

    • 教授     博士生导师   硕士生导师
    • 主要任职:Professor in Process Mechanics
    • 性别:男
    • 毕业院校:大连理工大学
    • 学位:博士
    • 所在单位:工程力学系
    • 学科:制造工艺力学. 工程力学. 计算力学
    • 办公地点:综合实验1号楼619
    • 联系方式:0411-84708432
    • 电子邮箱:zhangz@dlut.edu.cn

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    个人简介

    张昭,男,博士,教授,博士生导师。2012年入选教育部新世纪优秀人才支持计划;2014年入选大连理工大学星海优青人才培育计划;2020-2022年担任Coatings(IF:3.236)编委、Crystals(IF:2.67)编委和Journal of Central South University(IF:2.392)青年编委;2019年入选大连市高端人才;2021年入选教育部课程思政教学名师;2021-2025年担任中国有色金属学会先进焊接与连接专业委员会委员。


    发表期刊论文180余篇,专著1部,主编及参编教材10余部,授权发明专利/实用新型专利/软件著作权15件,SCI他引1300余次,2次获得由Elsevier出版社颁发的Journal of Materials Processing Technology杂志高引论文奖、2次获得大连市自然科学优秀学术论文一等奖、获第五届中国科协优秀科技论文遴选计划优秀论文。Journal of Central South University优秀审稿专家(2022/01)、Best Reviewer Award 2022 (Journal of Central South University)(2022/12)、2021年度《电焊机》杂志优秀审稿专家(2021)、《人工晶体学报》2022年度“十佳审稿人”(2022)。


    主要研究方向(含博、硕士招生方向)包括:工艺—结构—性能一体化数值计算方法、增材制造数值模拟与试验、搅拌摩擦焊/搅拌摩擦增材制造数值模拟与试验工艺、声子晶体超材料拓扑优化设计、机车/动车车体结构拓扑优化设计等。


    主要工作经历:

    2007.3-2009.12,大连理工大学讲师;
    2009.1-2009.4,visiting scientist, Pennsylvania State University, US;
    2009.12-2014.12,大连理工大学副教授;
    2014.12至今,大连理工大学教授。


    研究生招生专业(硕士、博士):

    计算力学、工程力学、制造工艺力学、固体力学、机械、航空工程、船舶工程等相关专业。(由于后台系统同步延迟的原因,招生专业以此处信息为准)


    指导研究生获奖情况:

    研究生吴奇获2015年国家奖学金、2015年硕士学术之星 ,美国Brigham Young University联合培养

    研究生韩星凯获2016年国家奖学金;

    研究生谭治军获2018年国家奖学金;

    研究生谭治军获2019年国家奖学金、2019年钱令希力学奖学金一等奖;

    研究生韩星凯获2019年钱令希力学奖学金三等奖;

    研究生白小溪获2020年校优秀硕士论文;

    研究生韩星凯获2020年校优秀毕业生、辽宁省优秀毕业生;

    研究生谭治军获2021年校优秀毕业生、大连市优秀毕业生;

    研究生姚欣欣获2021年国家奖学金,美国University of Michigan-Dearborn联合培养

    研究生郭江川获2021年国家奖学金;

    研究生李健宇获2021年钱令希力学奖学金二等奖;

    研究生郭江川获2021年硕士生学术之星提名奖;

    研究生李健宇获2022年国家奖学金,意大利Università degli studi di Napoli Federico II 联合培养;

    研究生姚欣欣获2022年博士生学术之星提名奖。


    指导本科生获奖情况:

    本科生黄佳获2011届校优秀论文;

    本科生谭治军获2016届校优秀论文;

    本科生白小溪获2017届校优秀论文。


    部分代表性期刊论文如下:

    1. P. Ge, Z. Zhang, F.Y. Niu, J.Q. Chen, W.W. Liu, Z.M. Liu. Substrate design-based control of the residual distortion in directed energy deposition additive manufacturing, Journal of Thermal Stresses, 2023, 46(1): 22-42.

    2. Z. Zhang, Z.J. Tan, Y.F. Wang, D.X. Ren, J.Y. Li. The relationship between microstructures and mechanical properties in friction stir lap welding of titanium alloy, Materials Chemistry and Physics, 2023, 296: 127251.

    3. Z. Zhang. A review on additive manufacturing of wave controlling metamaterial, International Journal of Advanced Manufacturing Technology,  2023, 124: 647–680.

    4. Y.F. Wang, J.C. Guo, Z. Zhang. The influence of printing accuracy on the performance of additively manufactured AlSi10Mg phononic crystals, Physica Scripta, 2022, 97: 125707.

    5. Hao Shi, Tao Wu, Qing Gong, Wenjin Ding, Yan Chai, Alfons Weisenburger, Litao Chang, Zhao Zhang, Kangli Wang, Julia Richter, Thomas Niendorf, Georg Müller. Hot corrosion behavior of additively manufactured stainless steel 316L and Inconel 718 in MgCl2/KCl/NaCl chloride salts at 700 , Corrosion Science, 2022, 207: 110561.

    6. X.X. Yao, X. Gao, Z. Zhang. Three-dimensional microstructure evolution of Ti–6Al–4V during multi-layer printing: a phase-field simulation, Journal of Materials Research and Technology, 2022, 20: 934-949.

    7. X.X. Yao, Z. Zhang. Laser-particle interaction-based heat source model of laser powder bed fusion additive manufacturing, Optics and Laser Technology, 2022, 155: 108402.

    8. J.Y. Li, Z. Zhang, D.X. Ren, W. Zhang, Z.J. Tan. The experimental and numerical studies on load bearing capacity in lamellar tearing of friction stir lap weld, Engineering Fracture Mechanics, 2022, 271: 108609.

    9. J.Y. Li, S.N. Kong, C.K. Liu, B.B. Wang, Z. Zhang. Chemical composition effect on microstructures and mechanical properties in friction stir additive manufacturing, Acta Metallurgica Sinica (English Letters), 2022, 35: 1494–1508.

    10. Z. Zhang, P. Ge, J.Y. Li, D.X. Ren, T. Wu. Monte Carlo simulations of solidification and solid-state phase transformation during directed energy deposition additive manufacturing, Progress in Additive Manufacturing, 2022, 7:671–682.

    11. J.R. Li, J.C. Guo, Z. Zhang. The wave attenuations in phononic crystals based on unit cell and supercell relationship, Modern Physics Letters B, 2022, 36(14): 2250077.

    12. Y.F. Wang, J.C. Guo, Z. Zhang. The deformation induced tunable topology in controlling of band gap characteristics for stepped phononic crystals, Solid State Communications, 2022, 351: 114809.

    13.  H. Jing, P. Ge., Z. Zhang, J.Q. Chen, Z.M. Liu, W.W. Liu. Numerical studies of the effects of the substrate structure on the residual stress in laser directed energy additive manufacturing of thin-walled products, Metals, 2022, 12, 462.

    14. X. Gao, X.X. Yao, F.Y. Niu, Z. Zhang. The influence of nozzle geometry on powder flow behaviors in directed energy deposition additive manufacturing, Advanced Powder Technology, 2022, 33(3): 103487.

    15. J.C. Guo, Z. Zhang. Mass inertia moment-based design of band gap characteristics in zigzag beam-supported stepped phononic crystals, Applied Physics A, 2022, 128: 126.

    16. Z.J. Tan, Z. Zhang. Band gap characteristics of friction stir additive manufactured phononic crystals, Physica Scripta, 2022, 97: 025702.

    17. J.C. Guo, J.R. Li, L. Zhang, Z. Zhang. Wide range of wave attenuation in beam-supported stepped hybrid phononic crystals, Wave Motion, 2022, 108: 102827.

    18. Z. Zhang, Y.F. Wang, P. Ge. T. Wu. A Review on Modelling and Simulation of Laser Additive Manufacturing: Heat Transfer, Microstructure Evolutions and Mechanical Properties, Coatings, 2022, 12: 1277.

    19. 柳占宇,于德壮,杨帆,李冬园,张威,张昭. 动力集中动车组车体司机室结构优化设计,机械科学与技术,2022.

    20. 柳占宇,项盼,王松,杨帆,徐德山,韩鹏飞,高翔,张昭. 基于累积损伤的减振器座梁寿命分析,铁道机车车辆,2022,42(4): 102-107.

    21. 杨帆,柴学彬,高翔,张昭. 动车组动力车减振器座及焊缝疲劳寿命评估,中国铁道科学,2022, 43(04): 113-120.

    22. 张昭,李健宇,张威,谭治军. 化学成分对Al-Mg-Si系铝合金搅拌摩擦增材制造力学性能的影响,塑性工程学报,2022, 29(4): 97-103.

    23. 郭充,王佥,韩鹏飞,李加瑞,王艺飞,张昭. CEA3A1型交流客运电力机车车体疲劳评估,机车电传动,2022, (1): 91-97.

    24. Zi-jue Tang, Wei-wei Liu, Li-na Zhu, Zhi-chao Liu, Zhao-rui Yan, Dong Lin, Zhao Zhang, Hong-Chao Zhang. Investigation on coaxial visual characteristics of molten pool in laser-based directed energy deposition of AISI 316L steel, Journal of Materials Processing Technology, 2021, 290: 116996.

    25. J.Y. Li, X.X. Yao, Y.F. Wang, X. Gao, Z. Zhang. The simulation of post-heat treatment in selective laser melting additive manufacturing, Integrating Materials and Manufacturing Innovation, 2021, 10: 413-428.

    26. X.X. Yao, J.Y. Li, Y.F. Wang, X. Gao, T. Li, Z. Zhang. Experimental and numerical studies of nozzle effect on powder flow behaviors in directed energy deposition additive manufacturing, International Journal of Mechanical Sciences, 2021, 210: 106740.

    27. X.X. Yao, J.Y. Li, Y.F. Wang, X. Gao, Z. Zhang. Numerical simulation of powder effect on solidification in directed energy deposition additive manufacturing, Transactions of Nonferrous Society of China, 2021, 31(9): 2871-2884.

    28. J.C. Guo, J.R. Li, Z. Zhang. Interface design of low-frequency band gap characteristics in stepped hybrid phononic crystals, Applied Acoustics, 2021, 182: 108209.

    29. Z.J. Tan, J.Y. Li, Z. Zhang, Experimental and numerical studies on fabrication of nanoparticle reinforced aluminum matrix composites by friction stir additive manufacturing, Journal of Materials Research & Technology, 2021, 12: 1898-1912.

    30. Z. Zhang, P. Ge, J.Y. Li, Y.F. Wang, X. Gao, X.X. Yao. Laser particle interaction-based analysis of powder particle effects on temperatures and distortions in directed energy deposition additive manufacturing, Journal of Thermal Stresses, 2021, 44(9): 1068–1095.

    31. 柳占宇,于德壮,李加瑞,王艺飞,张昭. 基于拓扑和几何尺寸优化的动力集中动车组牵引梁减重优化设计,中国铁道科学,2021, 42(6): 122-129.

    32. 张昭,张磊,郭江川,姚欣欣,谭治军. 声子晶体增材制造的研究进展,电焊机,2021, 51(8): 11-22.

    33. 刘伟嵬,王怡文,王灏,唐梓珏,张昭. 不同工作模式下激光熔化沉积过程熔池演变数值研究,大连理工大学学报,2021, 61(4): 344-354.

    34. 吴涛,张昭,王冲,张恺. 打印角度对SLM增材制造Al250C铝合金的残余应力影响分析,材料研究与应用,2021, 15(4): 334-340.

    35. Z.J. Tang, W.W. Liu, Y.W. Wang, K.M. Saleheen, Z.C. Liu, S.T. Peng, Z. Zhang, H.C. Zhang. A review on in situ monitoring technology for directed energy deposition of metals, International Journal of Advanced Manufacturing Technology, 2020, 108: 3437–3463.

    36. Z. Zhang, Z.J. Tan, J.Y. Li, Y.F. Zu, J.J. Sha. Integrated modeling of process-microstructure-property relations in friction stir additive manufacturing, Acta Metallurgica Sinica (English Letters), 2020, 33: 75-87.

    37. Z. Zhang, W.W. Jin. Finite element modelling of the shaped charge jet and design of the reusable perforating gun, Petroleum Science, 2020, 17: 1389-1399.

    38. X.X. Yao, P. Ge, J.Y. Li, Y.F. Wang, T. Li, W.W. Liu, Z. Zhang. Controlling the solidification process parameters of direct energy deposition additive manufacturing considering laser and powder properties, Computational Materials Science, 2020, 182: 109788.

    39. X.K. Han, Z. Zhang. Bandgap design of three-phase phononic crystal by topological optimization, Wave Motion, 2020, 93: 102496.

    40. X.K. Han, Z. Zhang. Acoustic beam controlling in water by the design of phononic crystal, Extreme Mechanics Letters, 2020, 34: 100602.

    41. Z. Zhang, P. Ge, X.X. Yao, T. Li, W.W. Liu. Numerical studies of residual states and scaling effects in laser-directed energy deposition additive manufacturing, International Journal of Advanced Manufacturing Technology, 2020, 108: 1233–1247.

    42. Z. Zhang, P. Ge, T. Li, L.-E. Lindgren, W.W. Liu, G.Z. Zhao, X. Guo. Electromagnetic wave-based analysis of laser–particle interactions in directed energy deposition additive manufacturing, Additive Manufacturing, 2020, 34: 101284.

    43. Z. Zhang, X.X. Yao, P. Ge. Phase-field-model-based analysis of the effects of powder particle on porosities and densities in selective laser sintering additive manufacturing, International Journal of Mechanical Sciences, 2020, 166: 105230.

    44. J.Y. Li, X.X. Yao, Z. Zhang. Physical model based on data-driven analysis of chemical composition effects of friction stir welding, Journal of Materials Engineering and Performance, 2020, 29: 6591–6604.

    45. 张昭. 登山小鲁,锐意创新——人工周期性结构材料的波控制[J]. 人工晶体学报, 2020, 49(09): 1764.(封面故事)

    46. 张昭,白小溪,李健宇. 基于大数据驱动的焊接接头力学性能预测,电焊机,2020, 50(4): 75-78.

    47. 张昭,谭治军,李健宇,苑红磊,刘伟嵬. 铝合金搅拌摩擦搭接焊温度-再结晶-析出相-力学性能一体化数值模拟,机械工程学报,2020, 56(6): 213-220.

    48. 李加瑞,于子平,郭江川,韩星凯,张昭. 火箭被动减振结构—C型弹簧的设计,弹箭与制导学报,2020, 40(6): 26-29.

    49. 苑红磊,谭治军,张昭. 基于微观结构—力学行为一体化计算的搅拌摩擦焊接数值模拟,塑性工程学报,2020, 27(2): 182-191.

    50. L.-E. Lindgren, J. Edberg, P. Åkerström, Z. Zhang. Modeling of thermal stresses in low alloy steels, Journal of Thermal Stresses, 2019, 42: 725-743.

    51. Z.Q. Zhang, H.L. Liu, Z. Liu, Z. Zhang, G.G. Cheng, X.D. Wang, J.N. Ding. Anisotropic interfacial properties between monolayered black phosphorus and water, Applied Surface Science, 2019, 475: 857-862.

    52. X.K. Han, Z. Zhang. Topological optimization of phononic crystal thin plate by a genetic algorithm. Scientific Reports, 2019, 9: 8331.

    53. Z. Zhang, Z.J. Tan, J.Y. Li, Y.F. Zu, W.W. Liu, J.J. Sha. Experimental and numerical studies of re-stirring and re-heating effects on mechanical properties in friction stir additive manufacturing, International Journal of Advanced Manufacturing Technology, 2019, 104: 767–784.

    54. Z. Zhang, G.M. Ji, X.K. Han. Optimization design of a novel zigzag lattice phononic crystal with holes, International Journal of Modern Physics B, 2019, 33: 1950124.

    55. Z. Zhang, Z.J. Tan, X.X. Yao, C.P. Hu, P. Ge, Z.Y. Wan, J.Y. Li, Q. Wu. Numerical methods for microstructural evolutions in laser additive manufacturing, Computers & Mathematics with Applications, 2019, 78: 2296-2307.

    56. Z. Zhang, Z.J. Tan. A multi scale strategy for simulation of microstructural evolutions in friction stir welding of duplex titanium alloy, High Temperature Materials and Processes, 2019, 38: 485-497.

    57. P. Ge, Z. Zhang, Z.J. Tan, C.P. Hu, G.Z. Zhao, X. Guo. An integrated modeling of process-structure-property relationship in laser additive manufacturing of duplex titanium alloy, International Journal of Thermal Sciences, 2019, 140: 329-343.

    58. 葛芃,张昭,张少颜,赵国忠. 圆环构件增材制造残余应力模拟及尺寸效应分析,塑性工程学报,2019, 26(5): 249-255.

    59. 张昭,李健宇,谭治军. 合金成分变化对搅拌摩擦焊接力学性能的影响,兵器材料科学与工程,2019, 42(4): 1-6.

    60. 张昭,谭治军,李健宇,祖宇飞. 搅拌摩擦增材制造的微观结构力学性能一体化数值模拟,航空制造工艺,2019, 62(1-2): 14-18.

    其他联系方式

    电话/传真 : 0411-84708432

    Email : zhangz@dlut.edu.cn

    教育经历

    2000.9 -- 2003.5
    燕山大学       固体力学       硕士

    1996.9 -- 2000.7
    河北科技大学       化工设备与机械       学士

    2003.9 -- 2007.3
    大连理工大学       力学       博士

    工作经历

    2007.3 -- 至今

    大连理工大学

    研究方向

  • 声子晶体设计与优化

  • 搅拌摩擦焊接数值模拟

  • 增材制造工艺数值模拟

  • 运载火箭力学环境预示

  • 机车结构及疲劳