个人简介
周昊飞博士,浙江大学“百人计划”研究员,博士生导师,国家级青年人才项目获得者。2013年获浙江大学固体力学博士学位,2013年至2018年先后在清华大学和美国布朗大学从事博士后研究工作,2018年加入由杨卫院士领衔的浙江大学交叉力学中心(浙江大学第九届研究生“五好”导学团队)。2019年和2020年获浙江大学院级先进工作者,2020年获浙江大学第二期高层次人才培育支持专项计划。
在Nature、Science、Nature Communications、Journal of the Mechanics and Physics of Solids、International Journal of Plasticity、Acta Materialia、Nano Letters等学术期刊发表SCI论文40余篇,Springer出版社学术专著篇章1篇。研究成果被中国科学院、国家自然科学基金委、Chinese Science News、Materials Today、Science Daily、Nano Magazine、Engineer Magazine、Phys.org、Age of Robots、Controlled Enviroments、Product Design and Development等国内外科研机构和新闻媒体报道。
教育经历
博士固体力学浙江大学2013导师:杨卫院士
学士工程力学浙江大学2008导师:曲绍兴教授
工作经历
2018.09至今百人计划研究员浙江大学工程力学系
2015.04-2018.09博士后研究员美国布朗大学工学院合作导师:高华健院士
2013.07-2015.04博士后研究员清华大学工程力学系合作导师:高华健院士
学术访问经历
2013.10-2015.03访问学者美国布朗大学工学院
2020.01-2020.02访问学者南洋理工大学工学院
研究与成果
Selected Publications
(1)Q.Zhu#,Q.S.Huang#,C.Guang#,X.H.An,S.X.Mao,W.Yang,Z.Zhang,H.J.Gao,H.F.Zhou*,J.W.Wang*,Metallic nanocrystals with low angle grain boundary for controllable plastic reversibility.Nature Communications 11,3100(2020).
(2)Y.Tang,H.F.Zhou*,Q.P.Cao,*,Y.Z.Fang,X.D.Wang,D.X.Zhang,J.Z.Jiang*,Unravelling the origin of stress-dependent glass transition temperature in metallic glasses.Journal of the Mechanics and Physics of Solids 137,103853(2020).
(3)Z.Cheng#,H.F.Zhou#,Q.H.Lu,H.J.Gao*,L.Lu*,Extra strengthening and work hardening in gradient nanotwinned metals.Science 362,559(2018).
(4)Q.S.Pan#,H.F.Zhou#,Q.H.Lu,H.J.Gao*and L.Lu*,History-independent cyclic response of nanotwinned metals.Nature 551,214-217(2017).
(5)H.F.Zhou#,X.Y.Li#,S.X.Qu,W.Yang*and H.J.Gao*,A jogged dislocation governed strengthening mechanism in nanotwinned metals.Nano Letters 14,5075-5080(2014).
Full list of Publications
ORCID:https://orcid.org/0000-0001-9226-9530
Highlights:
1.Nanotwinned metals(Nature 2017;Acta Materialia 2019;JAM 2021;Nano Letters 2014,2015)
2.Gradient nanostructured metals(Science 2018;Mater.&Design 2019;Inter.J.Appl.Mech.2021)
3.Grain boundary engineering(Nature Communications 2020;J.Mater.Sci.Tech.2021;Scipta Mater.2020)
4.Amorphous alloys(JMPS 2015,2020;IJP 2013;EML 2020;Acta Mater.2014,2018;Mater.Today Phys.2021)
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(46)Zhu Qi et al.Inclination-governed deformation of dislocation-type grain boundaries,Journal of Materials Research,2021,revision.
(45)Li Guorui et al.Self-powered soft robot in the Mariana Trench,Nature,2021,591:66.
(44)Chen Wufan;Zhou Haofei*;Modeling for cyclic plasticity of gradient nanostructured metals and fatigue life prediction,International Journal of Applied Mechanics,2021,accepted.
(43)Tang Yao;Zhou Haofei*;Wang Xiaodong*;Cao Qingping;Zhang Dongxian;Jiang Jianzhong*;Origin of different thermal cycling effects in Fe80P20 and Ni60Nb40 metallic glasses,Materials Today Physics,2021,17:100349.
(42)Chen Yingbin#;Huang Qishan#;Zhu Qi;Song Kexing;Zhou Haofei*;Wang Jiangwei*;Coordinated grain boundary deformation governed nanograin annihilation in shear cycling,Journal of Materials Science and Technology,2021,86:180-191.
(41)Chen Wufan;Zhou Haofei*;Yang Wei;Physically based modeling of cyclic plasticity for highly oriented nanotwinned metals,Journal of Applied Mechanics,2021,88(4):041011.
(40)Zhao Qingkun#;Yang Huiya#;Liu Jiabin*;Zhou Haofei*;Wang Hongtao;Yang Wei;Machine learning-assisted discovery of strong and conductive Cu alloys:data mining from discarded experiments and physical features,Materials&Design,2021,197:109248.
(39)Ju Tingyi;Zhou Haofei*;Pressure-induced maximum shear strength and transition from shear banding to uniform plasticity in metallic glass,Extreme Mechanics Letters,2020,41:101058.
(38)Zhong Danming;Xiang Yuhai;Liu Junjie;Chen Zhe;Zhou Haofei;Yu Honghui;Qu Shaoxing*;Yang Wei;A constitutive model for multi network elastomers pre-stretched by swelling,Extreme Mechanics Letters,2020,40:100926.
(37)Xiang Yuhai#;Zhong Danming#;Rudykh Stephan;Zhou Haofei;Qu Shaoxing*;Yang Wei;A review of physically based and thermodynamically based constitutive models for soft materials,Journal of Applied Mechanics,2020,87(11):110801.
(36)Liu Yide;Zhao Donghao;Chen Yanhong;Wang Dongqi;Wen Zhou;Ye Ziyi;Guo Jianhui;Zhou Haofei*;Qu Shaoxing*;Yang Wei;BioARS:Designing adaptive and reconfigurable bionic assembly robotic system with inchworm modules,Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems(IROS),October 25-29,2020,Las Vegas,NV,USA(Virtual会议论文).
(35)Zhao Shuchun;Zhu Qi;Song Kexing;Zhou Haofei*;Wang Jiangwei*;Role of intersecting grain boundary on the deformation of twin-twin intersection,Scripta Materialia,2020,188:184-189.
(34)Zhu Qi#;Huang Qishan#;Guang Cao#;An Xianghai;Mao Scott X.;Yang Wei;Zhang Ze;Gao Huajian;Zhou Haofei*;Wang Jiangwei*;Metallic nanocrystals with low angle grain boundary for controllable plastic reversibility,Nature Communications,2020,11:3100.
(33)Zhou Haofei*;Zhu Panpan;Correlated necklace dislocations in highly oriented nanotwinned metals,Journal of Zhejiang University-SCIENCE A(Applied Physics&Engineering),2020,21:1.(SCI,review paper)
(32)Fu Yimou;Lu Haotian;Nian Guodong;Wang Peng;Lin Nan;Hu Xiaocheng;Zhou Haofei*;Yu Honghui;Qu Shaoxing*;Yang Wei;Size-dependent inertial cavitation of soft materials.Journal of the Mechanics and Physics of Solids,2020,137:103859.
(31)Tang Yao;Zhou Haofei*;Cao Qingping*;Fang Yunzhang;Wang Xiaodong;Zhang Dongxian;Jiang Jianzhong*;Unravelling the origin of stress-dependent glass transition temperature in metallic glasses,Journal of the Mechanics and Physics of Solids,2020,137:103853.
(30)Liu Yide;Liu Binhong;Yin Tenghao;Xiang Yuhai;Zhou Haofei*;Qu Shaoxing*;Bistable rotating mechanism based on dielectric elastomer actuator,Smart Materials and Structures,2019,29:015008.
(29)Chen Xin;Zhou Haofei*;Li Yumeng*;Effective design space exploration of gradient nanostructured materials using active learning based surrogate models,Materials and Design,2019,183:108085.
(28)Pan Qingsong#;Zhou Haofei#;Lu Qiuhong;Gao Huajian*;Lu Lei*;Asymmetric cyclic response of tensile pre-deformed Cu with highly oriented nanoscale twins,Acta Materialia,2019,175:477-486.
(27)Xiang Yuhai;Zhong Danming;Wang Peng;Yin Tenghao;Zhou Haofei;Yu Honghui*;Baliga Chinmay;Qu Shaoxing*;Yang Wei;A physically based visco-hyperelastic constitutive model for soft materials,Journal of the Mechanics and Physics of Solids,2019,128:208-218.
(26)Zhou Haofei*;Progress in mechanical properties,deformation mechanisms and multiscale simulations of gradient nanostructured metals,Chinese Journal of Solid Mechanics,2019,40(3):211-230.(固体力学学报,EI,review paper).
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(25)H.F.Zhou and S.X.Qu*,Mechanical properties of nanostructured metals:Molecular dynamics studies.In:C.H.Hsueh et al.(eds)Handbook of Mechanics of Materials(Springer Singapore,2019).Book chapter
(24)S.M.T.Mousavi,H.F.Zhou,G.J.Zou,H.J.Gao*,Transition from source-to stress-controlled plasticity in nanotwinned materials below a softening temperature.npj Computational Materials 5,2(2019).
(23)Z.Cheng#,H.F.Zhou#,Q.H.Lu,H.J.Gao*,L.Lu*,Extra strengthening and work hardening in gradient nanotwinned metals.Science 362,559(2018).
(22)Y.Lin,J.Pan,H.F.Zhou,H.J.Gao*and Y.Li*,Mechanical properties and optimal grain size distribution profile of gradient grained nickel.Acta Materialia 153,279-289(2018).
(21)S.M.T.Mousavi,G.J.Zou,H.F.Zhou and H.J.Gao*,Anisotropy governs strain stiffening in nanotwinned-materials.Nature Communications 9,1586(2018).
(20)W.Chen#,H.F.Zhou#,Z.Liu,J.Ketkaew,L.Shao,N.Li,P.Gong,W.Samela,H.J.Gao and J.Schroers*,Test sample geometry for fracture toughness measurements of bulk metallic glasses.Acta Materialia 145,477-487(2018).
(19)Q.S.Pan#,H.F.Zhou#,Q.H.Lu,H.J.Gao*and L.Lu*,History-independent cyclic response of nanotwinned metals.Nature 551,214-217(2017).
(18)W.Chen,H.F.Zhou,Z.Liu,J.Ketkaew,N.Li,J.Yurko,N.Hutchinson,H.J.Gao and J.Schroers*,Processing effects on fracture toughness of metallic glasses.Scripta Materialia 130,152-156(2017).
(17)H.F.Zhou,X.Y.Li,Y.Wang,Z.S.Liu,W.Yang and H.J.Gao*,Torsional detwinning domino in nanotwinned one-dimensional nanostructures.Nano Letters 15,6082-6087(2015).
(16)X.L.Zhou,H.F.Zhou,X.Y.Li*and C.Q.Chen*,Size effect on tensile and compressive strengths in metallic glass nanowires.Journal of the Mechanics and Physics of Solids 84,130-144(2015).
(15)J.Pan#,H.F.Zhou#,Z.T.Wang,Y.Li*and H.J.Gao*,Origin of anomalous inverse notch effect in bulk metallic glasses.Journal of the Mechanics and Physics of Solids 84,85-94(2015).
(14)H.F.Zhou and H.J.Gao*,A Plastic deformation mechanism by necklace dislocations near crack-like defects in nanotwinned metals.Journal of Applied Mechanics 82,071015(2015).
(13)S.X.Qu*and H.F.Zhou,Mechanical behaviors and deformation mechanisms of novel nano-structured metals.Advances in Mechanics 44,201409(2014).Review paper
(12)H.F.Zhou#,X.Y.Li#,S.X.Qu,W.Yang*and H.J.Gao*,A jogged dislocation governed strengthening mechanism in nanotwinned metals.Nano Letters 14,5075-5080(2014).
(11)H.F.Zhou#,C.Zhong#,Q.P.Cao,S.X.Qu,X.D.Wang,W.Yang and J.Z.Jiang*,Non-localized deformation in metallic alloys with amorphous structure.Acta Materialia 68,32-41(2014).
(10)L.L.Li,P.Zhang,Z.J.Zhang,H.F.Zhou,S.X.Qu,J.B.Yang and Z.F.Zhang*,Strain localization and fatigue cracking behaviors of Cu bicrystal with an inclined twin boundary.Acta Materialia 73,167-176(2014).
(9)H.F.Zhou,S.X.Qu and W.Yang*,An atomistic investigation of structural evolution in metallic glass matrix composites.International Journal of Plasticity 44,147-160(2013).
(8)H.F.Zhou,L.F.Zhang and S.X.Qu*,Temperature effect on critical shear stress for twin boundary migration.Computational Materials Science 60,231-233(2012).
(7)L.F.Zhang,H.F.Zhou and S.X.Qu*,Blocking effect of twin boundaries on partial dislocation emission from void surfaces.Nanoscale Research Letters 7,164(2012).
(6)S.X.Qu*and H.F.Zhou,Atomistic mechanisms of microstructure evolution in nanotwinned polycrystals.Scripta Materialia 65,265-268(2011).
(5)S.X.Qu*,H.F.Zhou and Z.L.Huang,Shear band initiation induced by slip-twin boundary interactions.Scripta Materialia 65,715-718(2011).
(4)S.X.Qu*,G.M.Wang,H.F.Zhou and Z.L.Huang,Can nanoscale twin boundaries serve as dislocation sources in single crystals?Computational Materials Science 50,1567-1570(2011).
(3)S.X.Qu*and H.F.Zhou,Hardening by twin boundary during nanoindentation in nanocrystals.Nanotechnology 21,335704(2010).
(2)H.F.Zhou,S.X.Qu*and W.Yang*,Toughening by nano-scaled twin boundaries in nanocrystals.Modelling and Simulation in Materials Science and Engineering 18,065002(2010).
(1)H.F.Zhou and S.X.Qu*,The effect of nanoscale twin boundaries on fracture toughness in nanocrystalline Ni.Nanotechnology 21,035706(2010).
课题组成员
博士后研究员
陈无凡2019.09-
研究方向:金属材料力学本构
上海交通大学,固体力学,博士,2012.09-2019.06,“宏微观尺度下金属材料的循环塑性及时间相关特性研究(冯淼林)”
博士研究生
付以谋(与曲绍兴教授共同指导)2017.09-
研究方向:软材料极端力学
四川大学,工程力学,学士,2013.09-2017.06
祝盼盼2018.09-
研究方向:多尺度材料
四川大学,工程力学,学士,2014.09-2018.06,“细胞群体行为在不同相互作用强度下的数值模拟研究(季葆华,刘展)”
刘一得(与曲绍兴教授共同指导)2018.09-
研究方向:微型机器人
哈尔滨工业大学,机械电子工程,学士,2014.09-2018.06,“基于介电弹性体的双稳态柔性驱动器设计(曲绍兴,闫继宏)”
黄绮珊2019.09-
研究方向:金属
华中科技大学,工程力学,学士,2015.09-2019.06,“纳米金属表面位错形核的分子动力学模拟(杨新华、周昊飞)”
卢海明2019.09-
研究方向:金属
河海大学,工程力学,学士,2015.09-2019.06,“3D打印梯度材料的界面缺陷容忍能力研究(周昊飞、薛峰)”
赵庆坤2020.09-
研究方向:机器学习、多尺度计算
湖南大学,机械设计制造及其自动化,学士,2016.09-2020.06,“高性能合金设计的第一性原理与机器学习研究(李甲、周昊飞)”
万盼盼2020.09-
研究方向:多尺度计算
山东大学,工程力学,学士,2016.09-2020.06,“纳米尺度梁挠曲电影响的有限单元法研究(王炳雷)”
硕士研究生
居婷怡2019.09-
研究方向:金属玻璃
东南大学,工程力学,学士,2015.09-2019.06,“金属玻璃力学性能的应力状态依赖效应(糜长稳、周昊飞)”
刘泰山2020.09-
研究方向:复合材料、变形结构
哈尔滨工程大学,工程力学,学士,2016.09-2020.06,“碳纤维复合材料多尺度计算(薛启超)”
陈睿2021.09-
研究方向:变形体
本科生
邓海鳞2021.09-
研究方向:原子尺度计算
四川大学,工程力学,2017.09-
研究助理
杨斌2019.08-2020.01
西安交通大学,动力工程及工程热物理,硕士,2016.09-2019.06
教学
2018-2019春夏,材料力学(乙),64课时,浙江大学
2019-2020春夏,材料力学(乙),64课时,浙江大学
2020-2021秋,最优化原理与方法,32课时,浙江大学
2020-2021春夏,材料力学(乙),64课时,浙江大学
博士后招聘
课题组长期招聘博士后
博士后职位要求:
1.具备力学、机械、材料、物理、化工和计算机等相关背景;
2.对新材料、多尺度计算、机器学习和微型机器人等研究领域有浓厚兴趣,具有一定研究经验,发表第一作者或通讯作者论文;
3.具有独立开展科研的能力,细心负责,具有良好的沟通能力和团队合作精神;
4.具有良好的英文阅读和写作能力。
待遇条件:
1.待遇参考浙江大学标准(http://saa.zju.edu.cn/office/redir.php?catalog_id=14338&object_id=58626)。学校资助加课题组配套,保证年薪不低于20万;
2.良好的科研及办公环境;
3.课题组将协助申请人申请国家博士后基金、国家自然科学基金等;
4.课题组与新加坡南洋理工大学高华健院士有长期合作关系,受聘博士后有短期访问机会。
博士后应聘方式:
1.提供详细的个人简历,包括教育经历(本科、硕士、博士等),主要科研工作内容和成果,发表论文、专利清单,获奖情况等;
2.提供三篇代表性论文全文;
3.应聘者请将材料电子版发送到邮箱:邮件主题命名为:“姓名-学校-应聘博士后”,并在邮件中注明可到岗时间。
近期论文
查看导师最新文章
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(1)Q.Zhu#,Q.S.Huang#,C.Guang#,X.H.An,S.X.Mao,W.Yang,Z.Zhang,H.J.Gao,H.F.Zhou*,J.W.Wang*,Metallic nanocrystals with low angle grain boundary for controllable plastic reversibility.Nature Communications 11,3100(2020).
(2)Y.Tang,H.F.Zhou*,Q.P.Cao,*,Y.Z.Fang,X.D.Wang,D.X.Zhang,J.Z.Jiang*,Unravelling the origin of stress-dependent glass transition temperature in metallic glasses.Journal of the Mechanics and Physics of Solids 137,103853(2020).
(3)Z.Cheng#,H.F.Zhou#,Q.H.Lu,H.J.Gao*,L.Lu*,Extra strengthening and work hardening in gradient nanotwinned metals.Science 362,559(2018).
(4)Q.S.Pan#,H.F.Zhou#,Q.H.Lu,H.J.Gao*and L.Lu*,History-independent cyclic response of nanotwinned metals.Nature 551,214-217(2017).
(5)H.F.Zhou#,X.Y.Li#,S.X.Qu,W.Yang*and H.J.Gao*,A jogged dislocation governed strengthening mechanism in nanotwinned metals.Nano Letters 14,5075-5080(2014).
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