简介教学科研PublicationsNewsEnglishAlbum
基本信息
张俊杰博士，男，汉族，1982年5月出生于湖北省孝感市。现任哈尔滨工业大学机电工程学院教授、博士生导师、哈尔滨工业大学青年拔尖人才。研究方向为超精密加工基础理论与工艺。先后主持国家自然科学基金3项、国防基础科研1项在内的20余项科研项目，并参与国家自然科学基金3项。发表SCI论文40余篇，H因子为11，荣获2016年教育部自然科学二等奖、第二届“上银优秀机械博士论文奖”佳作奖。现为中国机械工程学会高级会员、中国机械工程学会微纳制造技术分会第二届委员、中国机械工程学会生产工程分会精密工程与微纳技术专业委员会委员、精密测试技术及仪器国家重点实验室客座研究员、国家自然科学基金函评专家、2个国际ESCI期刊编委、31个国际SCI期刊审稿人。

教育经历
2008年9月-2009年8月德国Ruhr-University Bochum 国家公派博士联合培养

2005年9月-2011年7月哈尔滨工业大学机电工程学院硕博连读

2001年9月-2005年7月哈尔滨工业大学机电工程学院本科

工作经历
2017年04月-至今 哈尔滨工业大学机电工程学院博士生导师

2017年01月-至今 哈尔滨工业大学机电工程学院教授

2014年05月-2017年4月 哈尔滨工业大学机电工程学院硕士生导师

2013年12月-2016年12月 哈尔滨工业大学机电工程学院副教授

2012年01月-2013年01月 德国Ruhr-University Bochum博士后

2011年08月-2013年12月 哈尔滨工业大学机电工程学院讲师

荣誉称号
2018年中日超精密加工国际会议青年学者奖

2017年亚洲精密工程和纳米技术学会优秀青年科学家奖

2016年教育部自然科学奖二等奖（第二）

2016年哈尔滨工业大学青年拔尖人才选聘计划教授

2013年哈尔滨工业大学青年拔尖人才选聘计划副教授

2012年第二届“上银优秀机械博士论文奖”佳作奖

2011年黑龙江省优秀毕业生、哈尔滨工业大学优秀毕业生

2010年哈尔滨工业大学第四届研究生十佳英才提名奖

2009年哈尔滨工业大学第十四批正在进行的优秀博士学位论文

2009年宝钢优秀学生奖学金

学术兼职
2012.12 中国机械工程学会高级会员

2014.07 精密测试技术及仪器国家重点实验室客座研究人员

2016.12 AIMS Materials Science编委

2017.09 The Journal of Engineering编委

2017.07 国际纳米制造学会(The International Society of Nanomanufacturing)会员

2018.12 中国机械工程学会微纳制造技术分会第二届委员
SCI期刊审稿人：AIP Advances, Chinese Physics B, Chinese Science Bulletin, Chinese Physics Letters, Current Nanoscience, Computational Materials Science, Engineering, Industrial Lubrication and Tribology, International Journal of Precision Engineering and Manufacturing, Journal of Alloys and Compounds, Journal of Applied Polymer Science, Journal of Vacuum Science and Technology B, Journal of Mechanical Science and Technology,Journal of Mechanical Engineering Science, Journal of Physics and Chemistry of Solids, Journal of Manufacturing Processes, Materials Chemistry and physics, Materials Research Express, Materials Science & Engineering B, Molecular Simulation, Nanoscale Research Letters, Nanoscience and Nanotechnology Letters, Nanotechnology, Optics Express, Part C: Journal of Mechanical Engineering Science, Philosophical Magazine, Physical Chemistry Chemical Physics, RSC Advances, SCIENCE CHINA Physics, Mechanics & Astronomy, Sensors & Actuators: A. Physical, Surface and Interface Analysis, Thin Solid Films, Tribology Letters.


研究领域
面向材料的超精密加工机理与工艺

运用多尺度仿真与实验手段研究超精密加工中的金属、陶瓷和聚合物等材料微观变形机理及其与表面成形的关联机制。



功能表面微结构制备与表征

面向减摩擦、抗反射等应用，通过超精密切削加工和特种加工等手段制备金属、陶瓷、半导体材料的表面微结构。



计算材料科学

运用分子动力学仿真手段研究一维和二维材料在微观尺度下的形成及其性能。



精密医疗器械

将精密机械传动与控制应用于提高医疗器械的可靠性和精度。



代表性科研项目

项目名称铜质微尺寸交叉圆柱零件微切削加工机理与工艺

项目来源国防基础科研核科学挑战专题

开始时间2018.01

结束时间2021.12

项目经费200

担任角色负责

项目类别纵向项目

项目状态进行中



项目名称碳化硅金刚石切削加工脆塑转变和材料去除机理研究

项目来源国家自然科学基金中德国际合作基金

开始时间2018.01

结束时间2020.12

项目经费180

担任角色负责

项目类别纵向项目

项目状态进行中



项目名称多晶铈金刚石刀具加工表层与亚表面损伤层形成机理研究

项目来源国家自然科学基金联合基金项目

开始时间2016-01-01

结束时间2018-12-01

项目经费63

担任角色负责

项目类别纵向项目

项目状态进行中



项目名称各向异性纳米晶铜的超光滑加工表面形成机理的仿真与实验研究

项目来源国家自然科学基金青年科学基金项目

开始时间2015-01-01

结束时间2017-12-01

项目经费25

担任角色负责

项目类别纵向项目

项目状态完成



项目名称纳米孪晶铜纳米磨损极值的分子动力学仿真研究

项目来源中国博士后科学基金第6批特别资助

开始时间2014-01-01

结束时间2016-12-01

项目经费15

担任角色负责

项目类别纵向项目

项目状态完成



项目名称单晶硅片纳米刻划的初始塑性机制的仿真和实验研究

项目来源2013年度高等学校博士学科点专项科研基金资助

开始时间2014-01-01

结束时间2016-12-01

项目经费4

担任角色负责

项目类别纵向项目

项目状态完成



项目名称纳米孪晶铜机械加工表层形成机理的分子动力学仿真研究

项目来源精密测试技术及仪器国家重点实验室（天津大学）2014 年度开放基金资助

开始时间2014-06-01

结束时间2016-06-01

项目经费8

担任角色负责

项目类别纵向项目

项目状态完成



仪器与设备
目前实验室具有的主要仪器如下：

1> 真空热化学模压系统

石墨模具最大0.5英寸、不锈钢模具最大1英寸；最大压力10MPa；最大工作温度1100℃，控温精度±1℃，可设置30段升降温程序。配备真空机组和冷水机。



2> 纳秒光纤激光加工平台

IPG纳秒光纤激光器，风冷，波长1064nm；最大功率30W，0.1-1可调；脉宽90-120ns可调；重复频率30-200kHz；光束质量1.5M2；振镜，最小光斑0.01mm；



3> 精密研磨/抛光机

超平抛光盘，平面度为每25mm×25mm小于0.0025mm；双加工工位；磨抛盘转速0-250rpm，无级可调；磨抛盘：？203mm、载物盘：？80mm。



4> 金刚石线切割机

主轴转速2-260rpm可调；金刚石线宽0.03mm；二维水平旋转0-360°，左右倾角±15°；切割深度≤50mm；最大切割样品尺寸？50mm×50mm。



5> 金相显微镜

倒置；载物台移动范围30mm×30mm，最大外径Φ130mm；目镜10X；物镜40X、60X、80X、100X；数码摄像头，像素尺寸2.2μm×2.2μm，帧率40fps，最大采集分辨率2592×1944；10X测微镜；专业级图像分析软件。



6> 万能材料试验机

拉伸、压缩、弯曲等分析；楔形夹具；电子引伸计25mm；荷重精度±0.01%；力分辨率±1/500000F.S，测量范围0-50KN；位移分辨率0.03μm；实验控速范围0.001-500mm/min；



7> 高性能计算服务器

服务器1：四节点，共80核心，至强E5 2660处理器2.6G；单节点32G内存，1TB硬盘。

服务器2：四节点，共48核心，至强E5 2620处理器2.0G；单节点32G内存，1TB硬盘。

服务器3：单节点，共44核心，至强E5 2696处理器2.2G，64G内存、240G SSD+2TB硬盘。

讲授课程
本科生课程：Proe系统及其应用、面向材料的超精密加工模拟技术、功能表面微结构超精密加工技术

留学生硕士课程：The Fundamentals of Micro and Nanomanufacturing

硕士课程：科技写作

招生信息
热烈欢迎研究生和本科生加入，具有良好的英语读写能力和机械工程、材料科学知识背景的优先考虑。我们将为您提供完备的科研环境和细致的指导，共同携手向前！

招生数量：博士每年1-2名；硕士每年2-3名；本科每年1~2名。

研究领域：特种材料超精密加工机理与工艺；功能表面微结构制备与表征；计算材料科学；精密医疗器械。



团队成员


Current Members
姓名

年级研究方向 E-mail
王站峰（副导师）

博二多晶铜切削加工机理w**@163.com
何洋（副导师）

博三聚合物纳结构加工工艺**@qq.com
卢仕进（直博）

博一颗粒增强复合材料的切削加工

机理

**@qq.com
韩 腊

研二
碳化硅振动辅助切削工艺**@qq.com
赵梁研二功能表面微结构纳秒脉冲激光

加工的仿真与实验研究

**@qq.com
杨丁槐

研二金属表面织构摩擦特性研究yangdh12345@sina.com
岳松涛

研一
多晶铜曲面加工工艺yuest154113@163.com

胡王杰研一基于超声冲击的不锈钢表面微

织构制备装置

**@qq.com
赵东旭研一
超声冲击不锈钢表面微织构加

工方法及其功能性研究

**@qq.com
Past Members
姓名

年级 研究方向 毕业去向 E-mail
李遥2016级硕士 金属铈切削加工表

面质量表征
**@qq.com
金铭

2016级硕士 金属铈切削加工工

艺
**@qq.com
王站峰

2014级硕士

纳米晶铜表层形成机

理
本校攻博

w**@163.com
李 敬

2014级硕士

生物组织3D打印技术

深圳努比亚

**@qq.com
郑海冰

2014级硕士

金属铈切削加工机理

深圳比亚迪

**@qq.com
Kashif Shaikh

2015级硕士

陶瓷精密抛光工艺

沙特

kashif9t@gmail.com
石仪凯



2012级本科

石墨烯机械性能

国防科大保研

**@qq.com
苏义豪

2012级本科

机器人结构设计
**@qq.com
张涛

2010级本科

空气静压导轨数值计

算
**@qq.com
徐方达

2008级本科

金属纳米线机械性能

英国巴斯大学博士

xfangda@gmail.com
袁豪谦

2010级本科

硅纳米颗粒机械性能

瑞典皇家理工 硕士

**@qq.com
李杨川

2011级本科

金纳米线机械性能

美国德克萨斯州大学硕士

liyangchuan654@gmail.com
姜雨琦

2011级本科

单晶硅初始塑性

美国凯斯西储大学硕士

jiangyuqi0071@163.com
郭世豪



2011级本科

碘化铯切削加工机理
**@qq.com
李傲文



2013级本科

石墨烯机械性能

上海贺德克

**@qq.com
宋烨麟

2013级本科

不锈钢减摩织构制备

上海交通保研

**@qq.com



Prof. Dr. Junjie Zhang


Office:No.206, New Tech. Building
Phone: +86-**
Fax: +86-**
Email:zhjj505@gmail.com; junjie.zhang@hit.edu.cn
Mailing Address: P.O. Box 413, Harbin Institute of Technology, 150001 Harbin, China

Brief Biography
Junjie Zhang received his B.S., M.S., and Ph. D. degrees from Harbin Institute of Technology of China in 2005, 2008, and 2011, respectively. He acted as a visiting student and a postdoctoral researcher in Prof. Alexander Hartmaier@#%s research group in the Interdisciplinary Centre for Advanced Materials Simulation (ICAMS), Ruhr-Universit？t Bochum in 2009 and 2012, respectively. From December 2013 to December 2016 he was an Associate Professor in Center for Precision Engineering, Harbin Institute of Technology, China. Currently he is a full-position Professor in Center for Precision Engineering, Harbin Institute of Technology, China.

Dr. Junjie Zhang has a background in mechanical engineering and computational materials science. His current research interests are focused on fundamental of ultra-precision machining, design and fabrication of funcational micro/nanostructures, nanoscale friction and wear of nanomaterials, computational materials science, etc.

Research
Fundamental of Material-Oriented Ultra-Precision Machining

Elucidating microscopic mechanisms of metallic, ceramic and polymeric materials and their correlation with surface formation in ultra-precision machining.



Design and fabrication of functional micro/nanostructures

Surface textures on metallic, ceramic and semiconductor materials for friction reduction and antireflection



Computational Materials Science

Microscopic properties of 1D and 2D materials revealed by molecular dynamics simulations.

Selected Publications
Book and chapters

Junjie Zhang*, Bing Guo, Jianguo Zhang. Simulation and Experiments of Material-Oriented Ultra-Precision Machining. Springer: Springer Tracts in Mechanical Engineering (2019)

Journal papers

Zhanfeng Wang, Haijun Zhang, Zengqiang Li, Guo Li, Junjie Zhang*, Hamad ul Hassan, Yongda Yan, Alexander Hartmaier, Tao Sun, Crystal plasticity finite element simulation and experiment investigation of nanoscratching of single crystalline copper. Wear 430-431 (2019) 100-107.

Zhanfeng Wang, Junjie Zhang*, Zongwei Xu, Jianguo Zhang, Hamad ul Hassan, Guo Li, Haijun Zhang, Alexander Hartmaier, Fengzhou Fang, Yongda Yan, Tao Sun. Crystal plasticity finite element modeling and simulation of diamond cutting of polycrystalline copper. Journal of Manufacturing Process 38 (2019) 187-195.
Junjie Zhang*, Dinghuai Yang, Andreas Rosenkranz, Jianguo Zhang, Chengwei Song, Yongda Yan, Tao Sun. Laser surface texturing of stainless steel – Effect of pulse duration on texture’s morphology and frictional response. Advanced Engineering Materials (2018) **.

Yuan Liu, Yanfeng Duan, Junjie Zhang*. Atomistic investigation of anisotropic nanoindentation behavior of nanotwinned aluminum containing inclined twin boundaries. Nanomaterials 8 (2018) 695.

Zhanfeng Wang, Junjie Zhang*, Hamad ul Hassan, Jianguo Zhang, Yongda Yan, Alexander Hartmaier, Tao Sun. Coupled effect of crystallographic orientation and indenter geometry on nanoindentation of single crystalline copper. International Journal of Mechanical Sciences 148 (2018) 531–539.

Yuan Liu, Yanfeng Duan, Junjie Zhang*. Atomistic investigation of anisotropic nanoindentation behavior of nanotwinned aluminum containing inclined twin boundaries. Nanomaterials 8 (2018) 695.

Yao Li, Maobing Shuai*, Junjie Zhang* , Haibing Zheng, Tao Sun, Yang Yang. Molecular dynamics investigation of residual stress and surface roughness of cerium under diamond cutting. Micromachines 9 (2018) 386.

C.L. He, W.J. Zong*, J.J. Zhang*. Influencing factors and theoretical modeling methods of surface roughness in turning process: State-of-the-art. International Journal of Machine Tools and Manufacture 129 (2018) 15-26.

Junjie Zhang*, Jianguo Zhang, Andreas Rosekranz, Xiaoli Zhao, Yelin Song. Surface textures fabricated by laser surface texturing and diamond cutting - Influence of texture depth on friction and wear. Advanced Engineering Materials (2018) **.

Junjie Zhang*, Maobing Shuai, Haibing Zheng, Yao Li, Ming Jin, Tao Sun. Atomistic and experimental investigation of the effect of depth of cut on diamond cutting of cerium. Micromachines 9 (2018) 26.

Jianguo Zhang*, Junjie Zhang*, Tao Cui, Zhiwei Hao, Ahmed Al Zahrani. Sculpturing of single crystal silicon microstructures by elliptical vibration cutting. Journal of Manufacturing Processes 29 (2017) 389-398.

Juniie Zhang*, Haibing Zheng, Maobing Shuai, Yao Li, Yang Yang, Tao Sun. Molecular dynamics modeling and simulation of diamond cutting of cerium. Nanoscale Research Letters 12 (2017) 464.

Junjie Zhang*, Yongda Yan, Wenjun Zong, Aowen Li, Zhen Qiao, Tao Sun. Chemisorption of hydrogen on graphene: insights from atomistic simulations. Journal of Physics: Condensed Matter 29 (2017) 195001.

Junjie Zhang*, Jianguo Zhang, Zhanfeng Wang, Alexander Hartmaier, Yongda Yan, Tao Sun. Interaction between phase transformations and dislocations at incipient plasticity of monocrystalline silicon under nanoindentation. Computational Materials Science 131 (2017) 55-61.

JJ Zhang*, ZF Wang, T Sun, YD Yan. Concise Review: Recent Advances Influence of stacking fault energy on friction of nanotwinned metals. Materials Research Express 3 (2016) 125018.

Junjie Zhang*, Zhanfeng Wang, Yongda Yan, Tao Sun. Concise Review: Recent Advances in Molecular Dynamics Simulation of Nanomachining of Metals. Current Nanoscience 12 (2016) 653-665.

J.J. Zhang*, Z.F. Wang, Y.D. Yan, T. Sun. Interface-dependent nanoscale friction of copper bicrystals: tilt versus twist. RSC Advances 6 (2016) 59206.

W.J. Zong*, X. Cheng, J.J. Zhang*. Atomistic origins of material removal rate anisotropy in mechanical polishing of diamond crystal. Carbon 99 (2016) 186-194.

Yanquan Geng, Junjie Zhang*, Yongda Yan*, Bowen Yu, Lin Geng, Tao Sun. Experimental and theoretical investigation of crystallographic orientation dependence of nanoscratching of single crystalline copper. Plos One (2015) **.

Junjie Zhang*, Christoph Begau, Lin Geng, Alexander Hartmaier. Atomistic investigation of wear mechanisms of a copper bi-crystal. Wear 332-333 (2015) 941-948.

Ying Yuan, Junjie Zhang*, Tao Sun, Cong Liu, Yanquan Geng, Yongda Yan and Peng Jin. Crystallographic orientation-dependent pattern replication in direct imprint of aluminum nanostructures. Nanoscale Research Letters10 (2015) 96.

HUANG YanHua, SONG ChengWei, ZHANG JunJie*, SUN Tao. Atomistic investigation of ablation of amorphous polystyrene under femtosecond laser pulse. SCIENCE CHINA Physics, Mechanics & Astronomy 58 (2015) 037002.

Wenjun Zong*, Junjie Zhang*, Yue Liu, Tao Sun. Achieving ultra-hard surface of mechanically polished diamond crystal by thermo-chemical refinement. Applied Surface Science 316 (2014) 617-624.

JJ Zhang*, YD Yan*, X Liu, T Sun, YC Liang. Influence of coherent twin boundary on three-point bending of gold nanowires. Journal of physics D: Applied Physics 47 (2014) 195301.

Zengqiang Li, Yanhua Huang, Junjie Zhang*, Yongda Yan, Tao Sun. Atomistic insight into the minimum wear depth of Cu(111) surface. Nanoscale Research Letters 8 (2013) 514.

Junjie Zhang*, Alexander Hartmaier, Yujie Wei, Yongda Yan, Tao Sun. Mechanisms of anisotropic friction in nanotwinned Cu revealed by atomistic simulations. Modelling and Simulation in Materials Science and Engineering 21 (2013) 065001.

Junjie Zhang, Yongzhi Cao, Qiang Gao, Chao Wu, Fuli Yu, Yingchun Liang. Template-assisted nanostructure fabrication by glancing angle deposition: a molecular dynamics study. Nanoscale Research Letters 8 (2013) 312.

Kai Du, Yongjian Tang, Junjie Zhang*, Fangda Xu, Yongda Yan and Tao Sun. Velocity-dependent Nanoscratching of Amorphous Polystyrene. Current Nanoscience 9 (2013) 153-158.

Junjie Zhang*, Fanda Xu, Yongda Yan and Tao Sun. Detwinning-induced reduction in ductility of twinned copper nanowires. Chinese Science Bulletin 58 (2013) 684-688.

Junjie Zhang, Tao Sun, Yongda Yan, Shen Dong and Xiaodong Li. Atomistic investigation of scratching-induced deformation twinning in nanocrystalline Cu. Journal of Applied Physics (2012) 112: 073526.

Junjie Zhang, Tao Sun, Alexander Hartmaier and Yongda Yan. Atomistic simulation of the influence of nanomachining-induced deformation on subsequent nanoindentation. Computational Materials Science (2012) 59:14-21.

Junjie Zhang, Yujie Wei, Tao Sun, Alexander Hartmaier, Yongda Yan and Xiaodong Li. Twin boundary spacing-dependent friction in nanotwinned copper. Physical Review B (2012) 85: 054109.

Junjie Zhang, Tao Sun, Yongda Yan, Yusong He, Yingchun Liang and Shen Dong. Atomistic investigation of probe-based nanomachining on Cu twin boundaries. Journal of Computational and Theoretical Nanoscience (2011) 8: 2344-2349.

Yongzhi Cao, Junjie Zhang, Tao Sun, Yongda Yan and Fuli Yu. Atomistic study of deposition process of Al thin film on Cu substrate. Applied Surface Science (2010) 256: 5993-5997.

Junjie Zhang, Tao Sun, Yongda Yan and Yingchun Liang. Molecular dynamics study of scratching velocity dependency in AFM-based nanometric scratching process. Materials Science and Engineering A (2009) 505:65-69.

Yongda Yan, Junjie Zhang, Tao Sun, Weidong Fei, Yingchun Liang and Shen Dong. Nanobending of nanowires: A molecular dynamics study. Applied Physics Letters (2008) 93: 241901

Junjie Zhang, Tao Sun, Yongda Yan, Yingchun Liang and Shen Dong. Molecular dynamics simulation of subsurface deformed layers in AFM-based nanometric cutting process. Applied Surface Science (2008) 254: 4774-4779.


Reviewer
AIP Advances

Chinese Physics B

Chinese Science Bulletin

Chinese Physics Letters

Current Nanoscience

Computational Materials Science

Engineering

Industrial Lubrication and Tribology

International Journal of Precision Engineering and Manufacturing

Journal of Alloys and Compounds

Journal of Applied Polymer Science

Journal of Vacuum Science and Technology B

Journal of Mechanical Science and Technology

Journal of Mechanical Engineering Science

Journal of Physics and Chemistry of Solids

Journal of Manufacturing Processes

Materials Chemistry and physics

Materials Research Express

Materials Science & Engineering B

Molecular Simulation

Nanoscale Research Letters

Nanoscience and Nanotechnology Letters

RSC Advances

SCIENCE CHINA Physics, Mechanics & Astronomy

Sensors & Actuators: A. Physical

Surface and Interface Analysis

Thin Solid Films

Tribology Letters


过往时光

2018年10月Alexander Hartmaier来访

2018年8月在德国波鸿鲁尔大学第二届中德双边论坛

2017年12月聚餐

2017年9月哈尔滨第一届中德双边研讨会

2017年6月毕业季在太阳岛

2016年7月毕业合影。

最新动态

新闻标题张俊杰获批一项2019年华中科技大学数字制造国重开放课题

发表时间2019-01-26

张俊杰申请的开放课题《基于超声冲击的不锈钢表面微织构制备技术》，经华中科技大学数字制造装备与技术国家重点实验室学术委员会专家评审决定予以立项，经费批复金额8万，课题起止时间为：2019年1月至2020年12月。


新闻标题张俊杰参加第十三届全国激光加工学术会议

发表时间2018-11-10

第十三届全国激光加工学术会议暨第二届激光复合制造协同创新国际论坛于2018年11月7-9日在杭州召开。张俊杰教授在激光微纳制造分会场做了题为“黑硅纳秒脉冲激光烧蚀加工机理及工艺研究”的邀请报告，并担任分会场共主席。


新闻标题张俊杰教授在中科院长光所授课

发表时间2018-10-30

2018年10月30日，张俊杰教授受邀参加中国科学院长春光学精密机械与物理研究所举行的“机械设计精品培训班”，为学员讲授“面向材料的超精密加工机理”课程，并开展交流活动。


新闻标题张俊杰教授荣获精密测试技术及仪器国家重点实验室优秀开放课题

发表时间2018-10-15

天津大学精密测试技术及仪器国家重点实验室开放课题学术交流会于2018年10月13日在天津大学举行，在近十年批准的开放课题中遴选了5项优秀开放课题，张俊杰教授承担的开放课题“纳米孪晶铜机械加工表层形成机理的分子动力学仿真研究”获此殊荣。


新闻标题张俊杰参加第六届亚洲摩擦学国际会议

发表时间2018-09-25

2018年9月16日-20日，张俊杰教授在马来西亚古晋参加了摩擦学领域的著名学术会议2018年第六届亚洲摩擦学国际会议（6th Asia International Conference on Tribology，简称ASIATRIB2018）。在会议期间，张俊杰在表面工程分会场做了题为Effect of pulse duration on tribological behavior of textured stainless steel by laser surface texturing的口头报告，并与各位学者开展了讨论。


新闻标题张俊杰教授荣获第14届中日超精密加工国际会议青年学者奖

发表时间2018-09-15

第十四届中日超精密加工国际会议14th China-Japan International Conference on Ultra-Precision Machining Process (CJUMP2018)于2018年9月13-15日在哈尔滨召开。张俊杰教授作为组委会主席全程组织了会议顺利召开，得到了中外参会学者的高度认可。张俊杰教授获得了青年学者奖Young Research Award，张俊杰教授指导的硕士生赵梁获得了最佳论文奖Best Paper Award。





新闻标题张俊杰教授主持召开第二届“面向材料的微纳制造：模拟、实验与应用”中德双边研讨会

发表时间2018-09-03

由中德科学中心资助、德国波鸿鲁尔大学和哈尔滨工业大学联合承办的第二届 “面向材料的微纳制造：模拟、实验与应用” 中德双边研讨会于2018年8月26日至31日在德国波鸿举行。会议德方主席为德国材料学会主席、鲁尔大学教授、中国****讲座教授Alexander Hartmaier，中方主席为哈尔滨工业大学张俊杰教授。本次研讨会共邀请了来自波鸿鲁尔大学、亥姆霍兹材料力学研究所、亚琛工业大学、凯撒斯劳滕大学、卡斯鲁尔理工学院、弗劳恩霍夫材料和光束技术研究所、弗劳恩霍夫材料力学研究所、多特蒙德大学等高校和研究机构的12位德国代表、来自智利、日本和英国的3位第3方代表和来自清华大学、上海交通大学、哈尔滨工业大学、西安交通大学、华中科技大学、西北工业大学、中国科学技术大学、西南交通大学、大连理工大学、天津大学、北京理工大学、湖南大学、中国工程物理研究院等高校和研究所的13位中国代表，他们就微纳制造技术及关键部件、过程分析与表征、建模与仿真、表面工程、精密加工与磨损的协同研究等议题开展了深入交流和讨论。张俊杰教授与Alexander Hartmaier教授共同主持了研讨会开幕式。会后中德代表参观了波鸿鲁尔大学机械与材料相关实验室，并商讨了第三届研讨会举办事宜。本研讨会为来自工程和材料领域的中国和德国学者开展合作研究提供一个重要的交流平台，为两国学者之间建立长期的多学科合作提供了积极作用。



新闻标题张俊杰教授获批承担一项国防基础科研项目

发表时间2018-09-03

张俊杰教授获批一项国防基础科研核科学挑战专题“铜质微尺寸交叉圆柱零件微切削加工机理与工艺“，经费200万元，研究期限2018.01-2021.12。


新闻标题张俊杰教授赴英国参加纳米制造国际会议nanoMan2018

发表时间2018-07-18
2018年7月3日-8日，张俊杰教授在英国伦敦参加了2018年第六届纳米制造国际会议（6thInternational Conference on Nanomanufacturing，简称nanoMan2018）。该会议为纳米制造领域的著名学术会议，由国际纳米制造学会发起，本次会议由英国布鲁奈尔大学承办，张俊杰教授为国际纳米制造学会活跃会员。在会议期间，张俊杰教授与来自美国、澳大利亚、日本、新加坡、中国的相关方向的学者进行了技术探讨，对该领域国内外发展现状有了更清楚的了解，为后续的研究提供了新思想。同时，张俊杰教授在Ultraprecision and micro/nano machining分会场做了题为Crystalplasticity finite element modeling and simulation of diamond cutting ofpolycrystalline copper的口头报告，并与各位学者开展了讨论。




新闻标题张俊杰教授获批2017年度NSFC-DFG中德国际合作基金

发表时间2017-12-18

日前，国家自然科学基金委网站发布消息（http://www.nsfc.gov.cn/publish/portal0/tab434/info72422.htm）：根据国家自然科学基金委员会（NSFC）与德国科学基金会（DFG）双边合作协议，2017年双方在广泛领域共同征集和资助中德合作研究项目。经过公开征集，共受理申请563项。根据中德双方评审结果并经双方机构共同协商，将对131个项目予以资助，项目执行期为2018年1月至2020年12月（3年）。

张俊杰教授与德国Ruhr-University Bochum的Prof. Alexander Hartmaier共同申报的《碳化硅金刚石切削加工脆塑转变和材料去除机理研究》获批，直接经费180万元。合作单位还包括日本名古屋大学张建国博士和天津大学徐宗伟副教授。


新闻标题张俊杰教授荣获ASPEN优秀青年科学家奖

发表时间2017-11-21

张俊杰教授于2017年11月13日-18日赴韩国首尔参加了第七届亚洲精密工程和纳米技术国际会议（7th Asian Society for Precision Engineering and Nanotechnology）。

本次会议有来自中国、日本、韩国、新加坡、澳大利亚等国家和地区的200多名学者参加。

张俊杰教授做了分会场口头报告，并担任分会场High Speed and Precision Machining 1的主席。

会议结束后，张俊杰教授荣获ASPEN优秀青年科学家奖，本次共有日本、韩国、中国大陆和中国台湾的7名优秀青年学者获此殊荣。








新闻标题张俊杰教授在首届中德双边研讨会上做报告

发表时间2017-09-05

由中德科学中心全额资助、德国鲁尔大学和哈尔滨工业大学联合承办的首届中德“面向材料的微纳制造模拟与实验”双边研讨会于2017年9月3日至8日在哈尔滨举行。会议德方主席为德国材料学会主席、鲁尔大学教授、哈尔滨工业大学****讲座教授Alexander Hartmaier，中方主席为机电学院孙涛教授和闫永达教授。张俊杰教授担任中方秘书。

本次研讨会共邀请了12位德国代表、1位美国代表和19位中国代表。他们就微纳制造技术及关键部件、过程分析与表征、建模与仿真、表面工程、精密加工与磨损的协同研究等议题开展了深入交流和讨论。张俊杰教授在会上做了题为“Influence of texture thickness on tribological properties of textured stainless steel”的口头报告，并与中德学者开展了深入交流。

会后中德代表参观了我校博物馆和精密工程研究所，并商讨了第二届研讨会举办事宜。本研讨会为来自工程和材料领域的中国和德国学者开展合作研究提供一个重要的交流平台，为两国学者之间建立长期的多学科合作提供了积极作用。





新闻标题张俊杰教授担任The Journal of Engineering副编辑

发表时间2017-09-11

近日，张俊杰教授应邀加入Journal of Engineering担任副编辑。






新闻标题张俊杰教授入选国际纳米制造学会活跃会员

发表时间2017-07-28

近日，张俊杰教授被国际纳米制造学会授予活跃会员称号。


新闻标题张俊杰教授通过哈尔滨工业大学2017年度博士生指导教师遴选

发表时间2017-04-28

根据《哈尔滨工业大学关于进行2017年度博士生指导教师遴选工作的通知》（研院发〔2017〕16号），经各院（系）博导遴选评审组织初选及第161次校学位委员会评议，张俊杰教授通过博士生指导教师遴选，列入哈尔滨工业大学2018年博士研究生招生简章，从2018年起招收指导博士研究生，欢迎大家报考！


新闻标题祝贺张俊杰入选2016年哈尔滨工业大学“青年拔尖人才选聘计划”，破格晋升教授！

发表时间2017-03-18

经本人申请、学校评审通过，张俊杰入选2016年度“哈尔滨工业大学青年拔尖人才选聘计划”，破格晋升为教授。

张俊杰教授的研究方向为超精密加工基础理论与工艺，功能微纳结构制备。一方面通过基础研究积极探索微观尺度下机械加工中的科学问题，另一方面通过创新性的基础研究来实现应用研究中的工艺创新、解决关键技术问题。作为负责人承担15项科研项目，包括2项国家自然科学基金。共发表SCI论文30余篇，他引150余次。担任国家自然科学基金函评专家、3个国际期刊编委、16个国际SCI期刊审稿人。荣获2016年度教育部自然科学二等奖1项（排名第2），目前担任中国机械工程学会高级会员、精密测试技术及仪器国家重点实验室客座研究人员.


新闻标题德国Ruhr-Universit？t Bochum Prof. Alexander Hartmaier讲学

发表时间2013-06-09

受学校国际合作与交流基金资助，应我校机电工程学院孙涛教授、闫永达教授邀请，德国Ruhr-Universit？t Bochum Prof. Alexander Hartmaier来我校交流访问。访问期间将为我校师生带来两次学术报告，讲学时间和地点具体安排如下，欢迎相关专业感兴趣的老师和同学参加。



讲学报告一：

题目：Higher education at Ruhr-Universit？t Bochum, Germany

时间：2013年6月14日（周五）上午8:00~10:00

地点：诚意楼22

Abstract: The educational system in Germany has undergone dramatic changes in recent years. Due to the homogenization of higher education throughout Europe the traditional German “Diplom” has been replaced by Bachelor and Master degrees. The Ruhr-Universitaet Bochum has been amongst the first universities in Germany to fully adapt its engineering courses to the new system. In this lecture an overview will be given on the basic elements of education in Germany, from high-school over Bachelor and Master to the doctorate degree. Generally, it can be said that the level of self-dependent learning is increasing steadily during an educational career. Furthermore, early individual research experience is fostered during the Bachelor phase. The level of individual research is increasing significantly during the Master phase and the PhD program, finally, is almost exclusively devoted to research on a high level. At the end of the lecture a short introduction on the international Master courses in engineering and natural sciences offered at Ruhr-Universitaet Bochum is given to provide a basis for discussions on possibilities of student exchange programs on all levels of education.



讲学报告二：

题目：Microstructure and mechanical properties of metals

时间：2013年6月14日（周五）下午14:00~16:00

地点：新技术楼210会议室

Abstract: In this lecture the basic elements of microstructure of metallic materials are introduced and the correlation between microstructure and mechanical properties of metals are discussed. This leads to a physical description of microstructural mechanisms leading to plastic deformation and failure. A special focus of this lecture is laid on dislocations and their properties. Different experimental and modelling methods are introduced by which the properties of dislocations can be determined. Since plastic deformation of metals is caused by the motion of dislocations, all hardening mechanisms are effectively obstructing dislocation motion. The different hardening mechanisms and their effectiveness for material strengthening and their implication for material failure are discussed in the lecture. Finally the concept of micromechanical modelling is introduced by which a direct link between microstructure and mechanical properties can be established within the framework of scalebridging materials modelling.



专家简介：

Alexander Hartmaier received his Diplom-Physiker from University of Kaiserslautern of Germany in 1995, and his Dr. rer. Nat from University of Stuttgart of Germany in 2000. He served as group leader at the Max Planck Institute for Metals Research of Germany between 2002 and 2005, and as Professor at the Friedrich-Alexander-University Erlangen-Nuremberg of Germany between 2005 and 2008. He is now a Professor of Materials Science and Director of the department “Micromechanical modeling of macroscopic material behavior” at the Interdisciplinary Centre for Advanced Materials Simulation (ICAMS), Ruhr-University Bochum, Germany. His current research focuses on mechanical and functional properties of heterogeneous materials, micromechanical modelling and micro- and nanometrological experiments.


新闻标题Summer Compact Course—Introduction to the Finite Element Method

发表时间2014-06-23

Welcome to the summer compact course "Introduction to the Finite Element Method" given by Prof. Dr. Bernhard Eidel at Centre for Computational Mechanics, University of Siegen, Germany.

Below please find the detailed information about the course:

Title of Course: Introduction to the Finite Element MethodSession of Course: 16Teaching Schedule: Class 5-8 (13:45-17:30) from Monday (14 July) to Thursday (17 July) in the fourth week of summer semester, Room 213 in ZhengXin Building（正心楼）



新闻标题Summer Compact Course—Advanced Chapters in Mechanics of Materials

发表时间2014-06-23

Welcome to the summer compact course "Advanced Chapters in Mechanics of Materials" given by Prof. Dr. Alexander Hartmaier at Interdisciplinary Centre for Advanced Materials Simulation, Ruhr-University Bochum, Germany.

Below please find the detailed information about the course:

Title of Course: Advanced Chapters in Mechanics of MaterialsSession of Course: 16Teaching Schedule: Part1: class 9-10 (18:30-20:15) from Wednesday (25 June) to Saturday (28 June) in the first week of summer semester, Room 109 in ZhengXin Building（正心楼）Part2: class 1-4 (08:00-11:45) from Monday (30 June) to Tuesday (1 July) in the second week of summer semester, Room 111 in ZhengXin Building（正心楼）


出版物

出版物名称Simulation and experiments of material-oriented ultra-precision machining

作者Junjie Zhang, Bing Guo, Jianguo Zhang

出版时间,完成时间2019年1月

出版社Springer



出版物名称基于原子力显微镜的纳米机械加工与检测技术

作者董申 孙涛 闫永达

出版时间,完成时间2012-12-01

出版社哈尔滨工业大学出版社

简单介绍参编，编写6万字。国家出版基金资助项目；“十二五”国家重点图书。


期刊论文
Zhanfeng Wang, Haijun Zhang, Zengqiang Li, Guo Li, Junjie Zhang*, Hamad ul Hassan, Yongda Yan, Alexander Hartmaier, Tao Sun, Crystal plasticity finite element simulation and experiment investigation of nanoscratching of single crystalline copper. Wear 430-431 (2019) 100-107.
Zhanfeng Wang, Junjie Zhang*, Zongwei Xu, Jianguo Zhang, Hamad ul Hassan, Guo Li, Haijun Zhang, Alexander Hartmaier, Fengzhou Fang, Yongda Yan, Tao Sun. Crystal plasticity finite element modeling and simulation of diamond cutting of polycrystalline copper. Journal of Manufacturing Process 38 (2019) 187-195.
Junjie Zhang*, Dinghuai Yang, Andreas Rosenkranz, Jianguo Zhang, Chengwei Song, Yongda Yan, Tao Sun. Laser surface texturing of stainless steel – Effect of pulse duration on texture’s morphology and frictional response. Advanced Engineering Materials (2018) **.

Yuan Liu, Yanfeng Duan, Junjie Zhang*. Atomistic investigation of anisotropic nanoindentation behavior of nanotwinned aluminum containing inclined twin boundaries. Nanomaterials 8 (2018) 695.

Zhanfeng Wang, Junjie Zhang*, Hamad ul Hassan, Jianguo Zhang, Yongda Yan, Alexander Hartmaier, Tao Sun. Coupled effect of crystallographic orientation and indenter geometry on nanoindentation of single crystalline copper. International Journal of Mechanical Sciences 148 (2018) 531–539.

Yuan Liu, Yanfeng Duan, Junjie Zhang*. Atomistic investigation of anisotropic nanoindentation behavior of nanotwinned aluminum containing inclined twin boundaries. Nanomaterials 8 (2018) 695.

Yao Li, Maobing Shuai*, Junjie Zhang* , Haibing Zheng, Tao Sun, Yang Yang. Molecular dynamics investigation of residual stress and surface roughness of cerium under diamond cutting. Micromachines 9 (2018) 386.

C.L. He, W.J. Zong*, J.J. Zhang*. Influencing factors and theoretical modeling methods of surface roughness in turning process: State-of-the-art. International Journal of Machine Tools and Manufacture 129 (2018) 15-26.

Junjie Zhang*, Jianguo Zhang, Andreas Rosekranz, Xiaoli Zhao, Yelin Song. Surface textures fabricated by laser surface texturing and diamond cutting - Influence of texture depth on friction and wear. Advanced Engineering Materials (2018) **.

Junjie Zhang*, Maobing Shuai, Haibing Zheng, Yao Li, Ming Jin, Tao Sun. Atomistic and experimental investigation of the effect of depth of cut on diamond cutting of cerium. Micromachines 9 (2018) 26.

Jianguo Zhang*, Junjie Zhang*, Tao Cui, Zhiwei Hao, Ahmed Al Zahrani. Sculpturing of single crystal silicon microstructures by elliptical vibration cutting. Journal of Manufacturing Processes 29 (2017) 389-398.

Juniie Zhang*, Haibing Zheng, Maobing Shuai, Yao Li, Yang Yang, Tao Sun. Molecular dynamics modeling and simulation of diamond cutting of cerium. Nanoscale Research Letters 12 (2017) 464.

Junjie Zhang*, Yongda Yan, Wenjun Zong, Aowen Li, Zhen Qiao, Tao Sun. Chemisorption of hydrogen on graphene: insights from atomistic simulations. Journal of Physics: Condensed Matter 29 (2017) 195001.

Junjie Zhang*, Jianguo Zhang, Zhanfeng Wang, Alexander Hartmaier, Yongda Yan, Tao Sun. Interaction between phase transformations and dislocations at incipient plasticity of monocrystalline silicon under nanoindentation. Computational Materials Science 131 (2017) 55-61.

JJ Zhang*, ZF Wang, T Sun, YD Yan. Concise Review: Recent Advances Influence of stacking fault energy on friction of nanotwinned metals. Materials Research Express 3 (2016) 125018.

Junjie Zhang*, Zhanfeng Wang, Yongda Yan, Tao Sun. Concise Review: Recent Advances in Molecular Dynamics Simulation of Nanomachining of Metals. Current Nanoscience 12 (2016) 653-665.

J.J. Zhang*, Z.F. Wang, Y.D. Yan, T. Sun. Interface-dependent nanoscale friction of copper bicrystals: tilt versus twist. RSC Advances 6 (2016) 59206.

W.J. Zong*, X. Cheng, J.J. Zhang*. Atomistic origins of material removal rate anisotropy in mechanical polishing of diamond crystal. Carbon 99 (2016) 186-194.

Yanquan Geng, Junjie Zhang*, Yongda Yan*, Bowen Yu, Lin Geng, Tao Sun. Experimental and theoretical investigation of crystallographic orientation dependence of nanoscratching of single crystalline copper. Plos One (2015) **.

Junjie Zhang*, Christoph Begau, Lin Geng, Alexander Hartmaier. Atomistic investigation of wear mechanisms of a copper bi-crystal. Wear 332-333 (2015) 941-948.

Ying Yuan, Junjie Zhang*, Tao Sun, Cong Liu, Yanquan Geng, Yongda Yan and Peng Jin. Crystallographic orientation-dependent pattern replication in direct imprint of aluminum nanostructures. Nanoscale Research Letters10 (2015) 96.

HUANG YanHua, SONG ChengWei, ZHANG JunJie*, SUN Tao. Atomistic investigation of ablation of amorphous polystyrene under femtosecond laser pulse. SCIENCE CHINA Physics, Mechanics & Astronomy 58 (2015) 037002.

Wenjun Zong*, Junjie Zhang*, Yue Liu, Tao Sun. Achieving ultra-hard surface of mechanically polished diamond crystal by thermo-chemical refinement. Applied Surface Science 316 (2014) 617-624.

JJ Zhang*, YD Yan*, X Liu, T Sun, YC Liang. Influence of coherent twin boundary on three-point bending of gold nanowires. Journal of physics D: Applied Physics 47 (2014) 195301.

Zengqiang Li, Yanhua Huang, Junjie Zhang*, Yongda Yan, Tao Sun. Atomistic insight into the minimum wear depth of Cu(111) surface. Nanoscale Research Letters 8 (2013) 514.

Junjie Zhang*, Alexander Hartmaier, Yujie Wei, Yongda Yan, Tao Sun. Mechanisms of anisotropic friction in nanotwinned Cu revealed by atomistic simulations. Modelling and Simulation in Materials Science and Engineering 21 (2013) 065001.

Junjie Zhang, Yongzhi Cao, Qiang Gao, Chao Wu, Fuli Yu, Yingchun Liang. Template-assisted nanostructure fabrication by glancing angle deposition: a molecular dynamics study. Nanoscale Research Letters 8 (2013) 312.

Kai Du, Yongjian Tang, Junjie Zhang*, Fangda Xu, Yongda Yan and Tao Sun. Velocity-dependent Nanoscratching of Amorphous Polystyrene. Current Nanoscience 9 (2013) 153-158.

Junjie Zhang*, Fanda Xu, Yongda Yan and Tao Sun. Detwinning-induced reduction in ductility of twinned copper nanowires. Chinese Science Bulletin 58 (2013) 684-688.

Junjie Zhang, Tao Sun, Yongda Yan, Shen Dong and Xiaodong Li. Atomistic investigation of scratching-induced deformation twinning in nanocrystalline Cu. Journal of Applied Physics (2012) 112: 073526.

Junjie Zhang, Tao Sun, Alexander Hartmaier and Yongda Yan. Atomistic simulation of the influence of nanomachining-induced deformation on subsequent nanoindentation. Computational Materials Science (2012) 59:14-21.

Junjie Zhang, Yujie Wei, Tao Sun, Alexander Hartmaier, Yongda Yan and Xiaodong Li. Twin boundary spacing-dependent friction in nanotwinned copper. Physical Review B (2012) 85: 054109.

Junjie Zhang, Tao Sun, Yongda Yan, Yusong He, Yingchun Liang and Shen Dong. Atomistic investigation of probe-based nanomachining on Cu twin boundaries. Journal of Computational and Theoretical Nanoscience (2011) 8: 2344-2349.

Yongzhi Cao, Junjie Zhang, Tao Sun, Yongda Yan and Fuli Yu. Atomistic study of deposition process of Al thin film on Cu substrate. Applied Surface Science (2010) 256: 5993-5997.

Junjie Zhang, Tao Sun, Yongda Yan and Yingchun Liang. Molecular dynamics study of scratching velocity dependency in AFM-based nanometric scratching process. Materials Science and Engineering A (2009) 505:65-69.

Yongda Yan, Junjie Zhang, Tao Sun, Weidong Fei, Yingchun Liang and Shen Dong. Nanobending of nanowires: A molecular dynamics study. Applied Physics Letters (2008) 93: 241901

Junjie Zhang*, Tao Sun, Yongda Yan, Yingchun Liang and Shen Dong. Molecular dynamics simulation of subsurface deformed layers in AFM-based nanometric cutting process. Applied Surface Science (2008) 254: 4774-4779.

期刊审稿人
AIP Advances

Chinese Physics B

Chinese Science Bulletin

Chinese Physics Letters

Current Nanoscience

Computational Materials Science

Engineering

Industrial Lubrication and Tribology

International Journal of Precision Engineering and Manufacturing

Journal of Alloys and Compounds

Journal of Applied Polymer Science

Journal of Vacuum Science and Technology B

Journal of Mechanical Science and Technology

Journal of Mechanical Engineering Science

Journal of Physics and Chemistry of Solids

Journal of Manufacturing Processes

Materials Chemistry and physics

Materials Research Express

Materials Science & Engineering B

Molecular Simulation

Nanoscale Research Letters

Nanoscience and Nanotechnology Letters

Nanotechnology

Optics Express

Part C: Journal of Mechanical Engineering Science

Physical Chemistry Chemical Physics

RSC Advances

SCIENCE CHINA Physics, Mechanics & Astronomy

Sensors & Actuators A: Physical

Surface and Interface Analysis

Thin Solid Films

Tribology Letters.

摩擦学学报

中国机械工程