个人简介
朱林利,男,理学博士,浙江大学航空航天学院工程力学系教授,博士生导师。国家“万人计划”青年拔尖人才,浙江大学求是青年学者,浙江省“钱江人才”计划获得者,中国力学学会塑性力学专业组组员,浙江省力学学会理事。2003年6月本科毕业于兰州大学力学系,2003年9月至2008年12月在兰州大学电磁固体力学研究小组攻读固体力学博士学位,师从郑晓静院士(中国科学院院士),研究方向为电磁固体力学和微纳米力学。2007年9月至2008年7月以访问学者的身份在美国布朗大学高华健院士(美国工程院院士)研究小组交流学习。2009年至2012年在香港理工大学吕坚院士(法国国家技术院院士)研究小组从事博士后工作,主要进行纳米结构金属材料塑性变形机理的理论研究。2012年2月进入浙江大学应用力学所从事教学科研工作,主要研究内容包括低维结构材料性能多物理场耦合行为和纳米结构金属材料塑性变形的理论研究。截至目前,已在相关领域权威期刊,如Nature、Nature Communications、Journal of the Mechanics and Physics of Solids、Acta Materialia、International Journal of Plasticity、Scientific Reports、Applied Physics Letters、Composites Science and Technology、Scripta Materialia、Journal of Applied Mechanics等SCI TOP期刊,发表学术论文70余篇。同时应邀参加International Congress of Theoretical and Applied Mechanics,International Conference on Nonlinear Mechanics'等国际会议并作学术报告。
研究与成果
近年来主要从事功能材料物理力学性能的尺寸效应、纳米尺度多物理场耦合行为、纳米结构金属材料力学性能等研究,并在这些研究中取得了如下成果:
(1)对多晶块体半导体热电材料的热电性能进行了系统地理论研究,建立了描述块体多晶材料弹性模量、热导率、电导率以及Seebeck系数晶粒尺寸效应的理论模型,以及纳米晶系统量子输运模型和巨磁阻效应的电导模型。
(2)基于连续介质理论和分子动力学模拟,首次指出在一维纳米线材的弹性模量的电力共振测量方法中,测量环境中的电场将会影响纳米线材杨氏模量的测量结果;建立了虑及横向表面力学行为的广义表面弹性理论,并将该理论用于分析外加电场或表面电荷引起的横向表面力学行为对纳米结构弹性模量的影响。由于该研究的创新性和前沿性,相关研究论文被收录入《Virtual Journal of Nanoscale Science&Technology》。
(3)用连续弹性理论研究了半导体纳米薄膜在初始应力场作用下的声子特性,发现通过调节应力场可以有效调控半导体材料纳米结构的声子特性和电学热学性能,从而达到在“声子工程”中控制结构声子热导性能。由于此项研究在纳米科技领域的前沿性,相关研究论文被收录入《Virtual Journal of Nanoscale Science&Technology》。
(4)对高强高韧纳米结构金属材料的塑性变形进行了系统研究,建立了描述纳米孪晶金属材料强度、应变硬化和延展性的孪晶片层尺寸效应的塑性力学模型,预测临界孪晶尺寸与晶粒大小的定量关系;同时建立了双模态纳米结构金属材料的细观力学模型,系统地研究了双模态晶粒尺寸分布、纳米孪晶增强相对材料强韧特性的影响,揭示了双模态纳米结构高强高韧的内在机理;建立了描述梯度纳米结构和超纳结构金属材料的强韧特性的理论模型,研究了这些新型纳米结构金属材料的微结构组成、分布和大小与材料强化机制和破坏机理之间的定量关系;研究成果已被中科院分区一区期刊接收发表。
教学与课程
Mechanics of Materials
一、材料力学(乙)
刘鸿文主编《材料力学》第五版高等教育出版社
二、塑性力学
三、工程力学
单辉祖、谢传锋合编《工程力学(静力学与材料力学)》
工作研究项目
主持项目:
1)微/纳米电子器件中的力-热耦合效应理论研究
(浙江省教育厅科研项目,2012年-2013年)
2)微/纳米电子器件中的力-电耦合效应理论研究
(浙江省“钱江人才计划”项目,2013年-2014年)
3)低维半导体功能材料力-热-电多场耦合特性的理论研究
(国家自然科学基金项目,2014年-2016年)
4)多模态晶粒尺寸分布纳米孪晶铜的力学特性分析
(教育部博士点基金项目,2014年-2016年)
5)双模态纳米孪晶金属的强韧特性优化及其在吸能结构中的应用
(国家自然科学基金项目,2015年-2018年)
6)GaN基微/纳电子器件的多物理场耦合问题研究
(中央高校基本科研业务费专项资金项目,2017年-2018年)
7)在多物理场条件下GaN基异质结构的力-热-电耦合问题及失效行为研究
(国家自然科学基金项目,2018年-2021年)
8)国家高层次人才特殊支持计划青年项目
(中组部人才项目,2020年-2022年)
9)缺陷调控下金属材料的变形与强韧化研究及其在高温合金中的应用
(国家自然科学基金项目,2021年-2024年)
奖励荣誉
浙江省钱江人才计划(2012年)
浙江大学紫金计划(2013年)
浙江大学求是青年学者(2013年)
中国力学大会专题优秀墙报(2017年)
浙江大学航空航天学院先进工作者(2018年)
国家“万人计划”青年拔尖人才(2019年)
浙江大学优秀研究生德育导师(2019年)
学术交流
国际会议:
17).Linli Zhu.Stress-tunable phonon and thermal/electrical properties of semiconductor nanostructures.The 14th International Conference on Nanostructured Materials,June 24-29,2018,Hong Kong.
16).Linli Zhu et al.Static and Dynamic Mechanical Behaviors of Gradient-Nanotwinned 304 Stainless Steels:Experiments and Simulations.Plasticity,Damage&Fracture,Jan 3-9,2018,Pueto Rico.
15).Linli Zhu.Strain/Stress-Engineering in Phonon Properties of Streesed Semiconductor Nanowire.The 5th Asian Conference on Mechanics of Functional Materials and Structures,October 14-27,2016,Shanghai,China.
14).Linli Zhu et al.,MODELING THE MECHANICAL PROPERTIES OF FCC POLYCRYSTALLINE METALS WITH HIERARCHICAL TWINS.24th International Congress of Theoretical and Applied Mechanics,August 21-26,2016,Montreal,Canada.
13).Linli Zhu and Haonan Luo.Surface/Interface Stress on Thermal Conductivity of Stressed GaN Nanofilms.IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications,July 1-3,2015,Suzhou,China.
12).Linli Zhu,2014.Theoretical analysis of the mechanical properties in nanotwinned metals with a composite structure.1st International Conference on Computational andexperimental methods for composite materials and structures.September 10-12,2014,Harbin Harbin University of Science and Technology,China
11).Linli Zhu,2014.Influence of pre-stress field on the electric properties of Semiconductor Nanowires.Symposium of Computational and Analytical Techniques for Solving Coupled Multiphysics Problems in 12th International Conference of Numerical Analysis and Applied Mathematics.September 22-28,2014,Rodos Palace Hotel,Rhodes,Greece.
10).Linli Zhu,2013.Phonon properties of stressed GaN nanostructures.In the Asia-Pacific Congress for Computational Mechanics(APCOM2013).Dec 11th-14th.2013.Singapore.
9).Linli Zhu and Jie Wang,2013.Strain/Stress-Engineering in Phonon Properties of Stressed Semiconductor Nanowires.Symposium of Computational and Analytical Techniques for Solving Coupled Multiphysics Problems in 11th International Conference of Numerical Analysis and Applied Mathematics.September 21-27,2013,Rodos Palace Hotel,Rhodes,Greece.
8).Linli Zhu and Jian LU,2013.A mechanism-based plastic model to simulate the mechanical properties in nanostructured bimodal metals.In the 13nd International Congress of Fracture(ICF2013).June 16-21,2013,Beijing,China
7).Linli Zhu and Jian LU,2012.TWIN-SPACING DEPENDENT YIELD STRENGTH IN THE MATERIALS WITH HIERARCHICAL NANOSTRUCTURES.In the 23nd International Congress of Theoretical and Applied Mechanics(ICTAM2012).Aug.19-24,2012,Beijing,China
6).Jian LU,Aiying CHEN,Leyu WANG,Ying LI,Haihui RUAN,Linli ZHU,2010.Mechanics and processing of high strength and high ductility nanomaterials,In International Conference on Mechanical Properties of Materials.May.24,2010,Zhejiang University,Hangzhou,China
5).Linli Zhu,Jian Lu,2010.Self-consistent mixture model for the simulation of the plastic deformation of metals with bimodal grain distribution and the presence of microcracks.In The 14th Annual Conference of HKSTAM 2009-2010 and The 7th Shanghai–Hong Kong Forum on Mechanics and Its Application.Mar.13,2010,The University of Hong Kong,Hong Kong,China
4).Linli Zhu,Xiaojing Zheng,2008.Elastic properties of nanostructures with the charged surfaces.In the 22nd International Congress of Theoretical and Applied Mechanics(ICTAM2008),25-29,August,Adelaide,Australia,p11014.
3).Linli Zhu,Xiaojing Zheng,2007.Effects of grain-boundary on elastic modulus of nanocrystalline materials.The Fifth International Conference on Nonlinear Mechanics(ICNM-V).11-14 June,Shanghai,China,p353-358.
2).Linli Zhu,Xiaojing Zheng,2005.Electromagnetic heat conduction theory and numerical modeling based on the Boltzmann equation.2005 International Symposium on Nonlinear Dynamics.20-21,December,Shanghai,China.
1).Xiaojing Zheng,Linli Zhu,You-he Zhou,Qingjie Zhang,2005.Grain size effects on thermal and electrical properties of bulk thermoelectric materials.2005’China-UK Workshop on Nanoscale Stress Measurement and Modeling in Nanomaterials and Nanosystems.13-15,June,Wuhan,China.
招生招聘
本课题组主要研究方向为多尺度材料力学和多物理场耦合力学,包括纳米结构金属材料强韧性能研究、半导体材料及其器件的力-热-电-磁多物理场耦合力学行为研究。具体研究内容包括新型纳米结构金属材料如纳米孪晶金属、梯度结构金属、超纳复合纳米结构金属的本构行为和断裂失效、纳米结构金属的微结构与强韧特性的关联、半导体纳米结构物理力学性能的多物理场耦合效应、半导体器件在力-热-电-磁等多场耦合作用下的力学响应和失效特性、微/纳电子器件的传热行为。本小组常年招收硕士生、博士生和博士后,欢迎力学、材料、物理、机械类等相关专业的本科生和研究生同学加盟。
发表论文
学术论文
www.researchgate.net/profile/Linli_Zhu
https://publons.com/researcher/1523365/linli-zhu
书籍章节:
2).X.Guo,G.Yang,G.J.Weng,Linli Zhu and J.Lu:Ballistic Performance of Bimodal Nanostructured and Nanotwin-strengthened Metals,Chapter 7 in Micromechanics and Nanomechanics of Composite Solids,edited by Shaker A.Meguid and George J.Weng,Springer International Publishing,Switzerland(2017).
1).Linli Zhu and Xiaojing Zheng:Grain-size dependent thermal,electrical and mechanical properties of bulk nanocrystalline materials.Chapter 6 in Bulk Materials:Research,Technology and Application,Nova Science Publishers,Hauppauge NY.Editors:Teodor Frías and Ventura Maestas)pp267-305(2010).
近期论文
查看导师最新文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
期刊论文
2020年
73).Shan Cecilia Cao,Xiaochun Zhang*,Lawrence D.Mao,Yongli Wang,Albert J.Qu,Yiteng Zhang,Hui Yang,Linli Zhu,Yudong Wang*,Jian Lu*.Numerical and experimental comparison of two nano-strucring processing techniques on making stronger stainless steels.Materials Today Communications 24,100419(2020).
72).Ge Wu,Ligang Sun,Linli Zhu,Chang Liu,Qing Wang,Yan Bao,Jian Lu*.Near-ideal strength and larger compressive deformability of a nano-dual-phase glass-crystal alloy in sub-micron.Scripta Materialia 188,290-295(2020).
71).Mingti Wang#,Qicong Li#,Jiaxin Shi,Xueyuan Cao,Lizhen Min,Xiaofeng Li,Linli Zhu*,Yuhuan Lv,Zhen Qin,Xiangyang Chen,and Kai Pan*.Bio-inspired high sensitivity of moisture-mechanical GO films with period-gradient structures.ACS Applied Materials&Interfaces 12,33104-33112(2020).
70).Xiang Guo*,Yang Liu,George J.Weng,Linli Zhu,Jian Lu,Gang Chen*.Microstructure-property relations in the tensile behavior of bimodal nanostructured metals.Advanced Engineering Materials 22,2000097(2020).
69).Jitang Fan*,Linli Zhu,Jian Lu,Tao Fu,Aiying Chen.Theory of designing the gradient microstructured metals for overcoming strength-ductility trade-off.Scripta Materialia 184,41-45(2020).
68).Ligang Sun,Dongfeng Li,Linli Zhu*,Haihui Ruan,Jian Lu*.Size-dependent formation and thermal stability of high-order twins in hierarchical nanotwinned metals.International Journal of Plasticity 128,102685(2020).
67).Xiaoling Zhou#,Zongqiang Feng#,Linli Zhu#,Jianing Xu#,Lowell Miyagi,Hongliang Dong,Hongwei Sheng,Yanju Wang,Quan Li,Yanming Ma,Hengzhong Zhang,Jinyuan Yan,Nobumichi Tamura,Martin Kunz,Katie Lutker,Tianlin Huang,Darcy A.Hughes,Xiaoxu Huang*and Bin Chen*.High pressure strengthening in ultra-fine-grained metals.Nature 579,67-72(2020).
66).Zizheng Guo,Kai Wu,Haihui Ruan*,Linli Zhu*.Modeling the strain rate-dependent constitutive behavior in nanotwinned polycrystalline metals.Physics Letters A,384,126206(2020).
2019年
65).Siyang Zhang,Xiaoya Tang,Haihui Ruan,Linli Zhu*.Effects of surface/interface stress on phonon properties and thermal conductivity in AlN/GaN/AlN heterostructural nanofilms.Applied Physics A,125,732(2019).
64).Xu He,Linli Zhu*,Jinling Liu*,Linan An.Grain growth-induced strain softening in nanocrystalline magnesium:experimentals and modeling.Materials Research Express,6,108002(2019).
63).Xu Wang,Jianquan Wan,Jianbiao Wang,Linli Zhu,Haihui Ruan*.Anomalous sudden drop of temperature-dependent Young's modulus of a plastically deformed duplex stainless steel.Materials and Design,181,108071(2019).
62).Bin Chen*,Linli Zhu,Yunchang Xin,Jialin Lei.Grain rotation in plastic deformation.Quantum Beam Science,3,17(2019).
61).Shusen Yang,Yang Hou,Linli Zhu*.Effects of surface charges on phonon properties and thermal conductivity in GaN nanofilms.Chinese Physics B,28,086501(2019).
60).Aiying Chen*#,Linli Zhu#,Ligang Sun#,Jiabin Liu,Hongtao Wang,X.Y.Wang*,J.H.Yang,Jian Lu*.Scale law of complex deformation transitions of nanotwins in stainless steel.Nature Communications,10,1403(2019).
59).Linli Zhu*,Chunsheng Wen,Chongyang Gao,Xiang Guo,Zi Chen,Jian Lu.Static and dynamic mechanical behaviors of gradient-nanotwinned stainless steel with a composite structure:Experiments and modeling.International Journal of Plasticity,114,272-288(2019).
58).Linli Zhu*.Strength and toughness properties in nanotwinned metals and gradient-nanostructured metals:A review.Chinese Journal of Solid Mechanics,40,1-20(2019)(In Chinese).
57).Linli Zhu*,Xiaoya Tang,Jiachuan Wang,Yang Hou.Modeling phonon thermal conductivity in spatially confined GaN nanofilms under stress fields and phonon surface scattering.AIP Advances,9,015024(2019).
56).Xiaoya Tang,Jiachuan Wang,Linli Zhu*,Wenyan Yin.Simulating stress-tunable phonon and thermal properties in heterostructgured AlN/GaN/AlN-nanofilms.Materials Research Express,6,015018(2019).
2018年
55).X.Guo*,Y.Liu,G.J.Weng,and Linli Zhu.Tensile failure modes in nanograined metals with nanotwinned regions.Metallurgical and Materials Transactions A,49(10),5001-5014(2018).
54).Shan Cecilia Cao,Linli Zhu*,Jiabin Liu,Ge Wu,Wenxuan Huang,Jian Lu*.Light-weight isometric-phase steels with superior strength-hardness-ductility combination.Scripta Materialia 154,230-235(2018).
53).Q.D.Ouyang,A.K.Soh,G.J.Weng,Linli Zhu,X.Guo*.The limit velocity and limit displacement of nanotwin-strengthened metals under ballistic impact.Acta Mechanica 229,1741-1757(2018).
52).Shan Cecilia Cao,Jiabin Liu,Linli Zhu,Ling Li,Ming Dao,Jian Lu*,Robert O.Ritchie*.Nature-Inspired Hierarchical Steels.Scientific Reports 8,5088(2018).
51).Xiaowei Liu,Ligang Sun,Linli Zhu,Jiabin Liu,Ke Lu,Jian Lu*.High-order hierarchical nanotwins with superior strength and ductility.Acta Materialia 149,397-406(2018).
50).Jiachuan Wang,Linli Zhu*,Wenyan Yin.Effects of heterogeneity and prestress field on phonon properties of semiconductor nanofilms.Computational Materials Science 145,14-23(2018).
2017年
49).Xu He,Linli Zhu*,Jinling Liu*,Linan An.Micromechanical simulation on strength and ductility of two kinds of Al-based nanostructural materials.Acta Mechanica Solida Sinica 30,404-415(2017).
48).Kai Wu,Xiang Guo,Haihui Ruan,Linli Zhu*.Micromechanical modeling for mechanical properties of gradient-nanotwinned metals with a composite microstructure.Materials Science and Engineering A 703,180-186(2017).
47).Ge Wu,Ka-Cheung Chan,Linli Zhu,Ligang Sun,Jian Lu*.Dual-phase nanostructuring as a route to high-strength magnesium alloys.Nature 545,80-83(2017).(Cover Article)
46).Linli Zhu*,Haihui Ruan,Aiying Chen,Xiang Guo,Jian Lu*.Microstructures-based constitutive analysis of mechanical properties of gradient-nanostructured 304 stainless steels.Acta Materialia 128,375-390(2017).
45).Linli Zhu*,Chunsheng Wen,Chongyang Gao*,Xiang Guo,Jian Lu.A study of dynamic plasticity in austenite stainless steels with a gradient distribution of nanoscale twins.Scripta Materialia 133,49-53(2017).
2016年
44).Linli Zhu*and Haonan Luo.On the role of piezoelectricity in phonon properties and thermal conductivity of GaN nanofilms.Theoretical and Applied Mechanics Letters 6,277-281(2016).
43).X.Guo*,X.Sun,X.Tian,G.J.Weng,Q.D.Ouyang,Linli Zhu*.Simulation of ballistic performance of a two-layered structure of nanostructured metal and ceramic.Composite Structures 157,163-173(2016).
42).Xiaowei Liu,Kai Wu,Ge Wu,Yuan Gao,Linli Zhu,Yang Lu,Jian Lu*.High strength and high ductility copper obtained by topologically controlled planar heterogeneous structures.Scripta Materialia 124,103-107(2016).
41).Linli Zhu*and Haonan Luo.Phonon properties and thermal conductivity of GaN nanofilm under prestress and surface/interface stress.Journal of Alloy and Compounds 685,619-625(2016).
40).Yang Hou and Linli Zhu*.Influence of surface scattering on the thermal properties of spatially confined GaN nanofilm.Chinese Physics B 25,086502(2016).
39).Linli Zhu*,Xiang Guo,Haihui Ruan.Simulating size and volume fraction-dependent strength and ductility of nanotwinned composite copper.ASME-Journal of Applied Mechanics 83,071009(2016).
38).Linli Zhu*,Xiang Guo,Haihui Ruan,Jian Lu.Prediction of mechanical properties in bimodal nanotwinned metals with a composite structure.Composite Science and Technology 123,222-231(2016).
37).X.Guo*,Q.D.Ouyang,G.J.Weng,Linli Zhu.The direct and indirect effects of nanotwin volume fraction on the strength and ductility of coarse grained metals.Materials Science and Engineering A 657,234-243(2016).
2015年
36).Haonan Luo and Linli Zhu*.Effects of surface stress on the phonon properties in GaN nanofilms.ASME-Journal of Applied Mechanics 82,111002(2015).
35).G.Yang,X.Guo,G.J.Weng,Linli Zhu and R.Ji.Simulation of ballistic performance of coarse-grained metals strengthened by nanotwinned regions.Modelling and Simulation in Materials Science and Engineering 23,055009(2015)
34).Linli Zhu*.Influence of pre-stress field on the electric properties of Semiconductor Nanowires.AIP Conf.Proc.1648,490002(2015).
33).X.Guo*,G.Yang,G.J.Weng,Linli Zhu.Numerical simulation of ballistic performance of bimodal nanostructured metals.Materials Science and Engineering A 630,12-26(2015).
32).Linli Zhu*and Haihui Ruan.Effects of pre-stress and surface stress on phonon thermal conductivity of rectangular Si nanowires.Applied Physics A 119:253-263(2015).
31).Linli Zhu*,Shaoxing Qu,Xiang Guo,Jian Lu*.Analysis of the twin spacing and grain size effects on mechanical properties in hierarchically nanotwinned face-centered cubic metals based on a mechanism-based plasticity model.Journal of the Mechanics and Physics of Solids 76,162-179(2015).
30).Linli Zhu*.Electron-acoustic phonon interaction and mobility in stressed rectangular silicon nanowires.Chinese Physics B 24,016201(2015).
2014年
29).Ligang Sun,Xiaoqiao He,Linli Zhu and Jian Lu*.Two softening stages in nanotwinned Cu.Philosophical Magazine 94,4037-4052(2014).
28).X.Guo*,R.Ji.G.J.Weng,Linli Zhu and J.Lu.Computer simulation of strength and ductility of nanotwin-strengthened coarse-grained metals.Modelling and Simulation in Materials Science and Engineering 22,075014(2014).
27).Linli Zhu*and Haihui Ruan.Influence of prestress fields on the phonon thermal conductivity of GaN nanostructures.ASME-Journal of Heat Transfer 136,102402(2014).
26).X.Guo*,R.Ji,G.J.Weng,Linli Zhu and J.Lu.Micromechanical simulation of fracture behavior of bimodal nanostructured metals.Materials Science and Engineering A 618,479-489(2014).
25).Linli Zhu*,Xiang Guo and Jian Lu.Surface stress effects on the yield strength in nanotwinned polycrystal fcc metallic nanowires.ASME-Journal of Applied Mechanics 81,101002(2014).
24).X.Guo*,X.Y.Dai,Linli Zhu and J.Lu.Numerical investigation of fracture behavior of nanostructured Cu with bimodal grain size distribution.Acta Mechanica 225,1093-1106(2014).
2013年
23).Linli Zhu*and J.Wang.Strain/stress-engineering in phonon properties of stressed semiconductor nanowires.AIP Conf.Proc.1558,914(2013).
22).X.Guo*,W.J.Zhang,Linli Zhu,J.Lu.Mesh depedence of transverse cracking in laminated metals with nanograined interface layers.Engineering Fracture Mechanis 105,211-220.(2013).
2012年
21).Linli Zhu*,Hongning Kou and Jian Lu*.On the role of hierarchical twins for achieving maximum yield strength in nanotwinned metals.Applied Physics Letters 101,081906(1-4)(2012).
20).Linli Zhu,Sanqiang Shi,Ke Lu and Jian Lu*.A statistical model for predicting the mechanical properties of nanostructured metals with bimodal grain size distribution.Acta Materialia 60,5762–5772(2012).
19).Linli Zhu,Aiying Chen and Jian Lu*.Achieving high strength and high ductility in nanostructured metals:Experiment and modeling.Theoretical and Applied Mechanics Letters 2,021001(2012).
18).Linli Zhu and Jian Lu*.Modelling the plastic deformation of nanostructured metals with bimodal grain size distribution.International Journal of Plasticity 30-31,166-184(2012).
Before 2012(2005-2011)
17).Linli Zhu,Haihui Ruan,Xiaoyan Li,Ming Dao,Huajian Gao and Jian Lu*.Modeling grain size dependent optimal twin spacing for achieving ultimate high strength and related high ductility in nanotwinned metals.Acta Materialia 59,5544-5557(2011).
16).Xingzhe Wang*,Yumei Yang and Linli Zhu.Effect of Grain Sizes and Shapes on Phonon Thermal Conductivity of Bulk Thermoelectric Materials.Journal of Applied Physics 110,024312(2011).
15).Linli Zhu and Xiaojing Zheng*.Modification of the elastic properties of nanostructures with surface charges in applied electric fields.European Journal of Mechanics A-Solids 29,337-347(2010).
14).Linli Zhu and Xiaojing Zheng*.Influence of interface energy and grain boundary on the elastic modulus of nanocrystalline materials.Acta Mechanica 213,223-234(2010).
13).Linli Zhu*and Xiaojing Zheng*.Stress field effects on phonon properties in spatially confined semiconductor nanostructures.CMC:Computers,Materials and Continua 18,301-320(2010).
12).Yuanwen Gao*,Yuezhou He,Linli Zhu.Impact of grain size on the Seebeck coefficient of bulk polycrystalline thermoelectric materials.Chinese Science Bulletin 55,16-21(2010).
11).Wei Luo,Linli Zhu,Xiaojing Zheng*.Grain size effect on electrical conductivity and giant magnetoresistance of bulk magnetic polycrystals.Chinese Physics Letters 26,117502(2009).
10).Linli Zhu and Xiaojing Zheng.Modification of the phonon thermal conductivity in spatially confined semiconductor nanofilms under stress fields.Europhysics Letters.88,36003(2009).
9).高原文,何月洲,朱林利.多晶块材热电材料Seebeck系数的晶粒尺寸效应.科学通报54:3278-3282(2009).
8).Linli Zhu and Xiaojing Zheng*.Transverse surface mechanical behavior and modified elastic modulus for charged nanostructures.Europhysics Letters 83,66007(2008).
7).Linli Zhu,Ke Jin,Xiaojing Zheng*.Effect of quantum transport on the resistivity of metal nanocrystalline materials in an electric field.Applied Physics Letters 91,103108(2007).
6).Linli Zhu,Li Qiao,Xiaojing Zheng*.Molecular dynamics simulation of the elastic properties of metal nanowires in a transverse electric field.Nanotechnology 18,385703(2007).
5).Xiaojing Zheng*and Linli Zhu.Theoretical analysis of electric field effect on the Young's modulus of nanowire.Applied Physics Letters 89,153110(2006).
4).Linli Zhu,Jianping Zhang and Xiaojing Zheng*.Multi-field coupling behavior of simply-supported conductive plate under the condition of a transverse strong impulsive magnetic field.Acta Mechanica Solida Sinica 19(3),203(2006).
3).Linli Zhu and Xiaojing Zheng*.A theory for electromagnetic heat conduction and a numerical model based on Boltzmann equation.International Journal of Nonlinear Science and Numerical Simulation 7(3),339(2006).
2).Xiaojing Zheng*,Linli Zhu,You-he Zhou,Qingjie Zhang.Impact of grain sizes on phonon thermal conductivity of bulk thermoelectric materials.Applied Physics Letters,87,242101-242103(2005).
1).朱林利,郑晓静.基于Boltzmann方程在外加电场和磁场作用下热传导及电磁热弹性理论.兰州大学学报(自然科学版),41,104-108(2005).
京公网安备 11010802027423号