李法新

博士、特聘研究员


北京大学工学院力学与空天技术系特聘研究员


联系电话:010-62757454
电子邮箱:lifaxin@pku.edu.cn
个人主页:http://www2.coe.pku.edu.cn/subpaget.asp?id=51


李法新

工作经历

2007.10-  北京大学工学院力学与空天技术系 特聘研究员
2005-2007 加拿大不列颠哥伦比亚大学机械工程系 博士后

 

教育经历

00.9-04.7 清华大学工程力学系固体力学专业 博士
97.9-00.7 大连理工大学土木系港口、海岸及近海工程专业 硕士
93.9-97.7 哈尔滨工程大学船舶与海洋工程专业 学士

 

实验室

智能材料与振动声学实验室(Lab for Smart Materials, Sound and Vibration)
本实验室招收硕士、博士研究生及博士后,欢迎相关学科的同学报考和咨询。

 

主要研究方向

1. 铁电陶瓷/晶体及薄膜的测试与表征
2. 扫描探针声学显微术-Atomic Force Acoustic Microscopy (AFAM)
3. 复合材料制备及无损检测
4. 医学弹性成像

 

主要荣誉与获奖经历

1.“电磁固体的变形与断裂”,国家自然科学二等奖(排名第4),2010
2. 清华大学优秀博士论文,2004
3. 清华大学优秀助教,2001
4. 山东省化学奥赛一等奖,全国高中数学联赛三等奖,1992

 

学术兼职

Reviewer for J Appl Phys, J Phys: Condens Matter, J Phys D: Appl Phys, Smart Mater Struct., J. Mater. Sci., Mater Lett., J Alloy Comp., etc

 

专利情况

1. 李法新,付际,周锡龙,高鹏。基于局部刚度法的复合材料无损检测系统及其检测方法。发明专利,授权号 ZL201210234912.6
2. 高鹏,李法新。一种基于非线性声学的材料无损检测方法和装置。发明专利,授权号:ZL 201210192940.6;(授权公告日2013.11.27)
3. 李法新,付际,李应卫,周锡龙,孙瑶。压电探测梁及浅表组织弹性成像系统。实用新型专利,授权号:ZL 201220604267.8(授权公告日2013.7.10)
4. 李法新,付际,李应卫,周锡龙,孙瑶。一种基于压电悬臂梁接触振动的浅表组织弹性成像系统。发明专利申请号:201310155655.1;公开号:CN103263250A

 

主要论文列表

2013年
47.     Ji Fu, Faxin Li*. An elastography method based on the scanning contact resonance of a piezoelectric cantilever. Med Phys, 40: 123502, 2013
46.     Yingwei Li, James Scott, Daining Fang, Faxin Li*. 90-degree polarization switching in BaTiO3 crystals without domain wall motion. Appl Phys Lett, 103, 232901, 2013 (Featured Article)
45.  F.X. Li*, Y. Sun, R.K.N.D. Rajapakse. Effect of electric boundary conditions on crack propagation in ferroelectric ceramics.Acta Mech Sinica 2013 (in press)
44. X.L. Zhou, F.X. Li*. Simulations of nonlinear deformations in Ni-Ti shape memory alloys under tension/compression using an energy minimization model. Comp Mater Sci 2013 (in press)
43.  D.N. Fang*, F.X. Li, B. Liu, Y.H. Zhang, J.W. Hong, X.H. Guo. Advances in Developing Electromechanically Coupled Computational Methods for Piezoelectrics/Ferroelectrics at Multiscale. Applied Mechanics Review 2013 (in press)
42. X.L. Zhou, J. Fu, Y.W. Li, F.X. Li*. Nanomechanical mapping of glass fiber reinforced polymer composites using atomic force acoustic microscopy. J Appl Polymer Sci 2013 (in press)
41. X.L. Zhou, J. Fu, F.X. Li*. Contact resonance force microscopy for nanomechanical characterization: accuracy and sensitivity. J Appl Phys 114, 064301, 2013
40. X.L. Zhou, C.H. Miao, F.X. Li*. Nanoscale structural and functional mapping of nacre by scanning probe microscopy techniques. Nanoscale 5: 11885-11893, 2013
39. Y.W. Li, X.L. Zhou, H.C. Miao, H.R. Cai, F.X. Li*. Mechanism of crystal-symmetry dependent deformation in ferroelectric ceramics: Experiments versus model. J. Appl. Phys.  113, 214111, 2013
38. C.Y. Zhang, F.X. Li, B. Wang. Estimation of the elasto-plastic properties of metallic materials from micro-hardness measurements. J Mater Sci. 48 (12): 4446-4451, 2013
37.  Y.W. Li, F.X. Li*. Ultrahigh actuation strains in BaTiO3 and Pb(Mn1/3Nb2/3)O3-PbTiO3 single crystals via reversible electromechanical domain switching. Appl Phys Lett, 102, 152905, 2013
36.  Y.W. Li, Y. Sun, F.X. Li*.  Domain texture dependent fracture behavior in mechanically poled/depoled ferroelectric ceramics. Ceram Int. 39: 8605-8614, 2013
35.  L.Z. Lin, Y.W. Li, A.K. Soh, F.X. Li*. A pencil-like magnetoelectric sensor exhibiting ultrahigh coupling properties. J Appl Phys, 113, 134101, 2013
34.  Y.W. Li, X.B. Ren, F.X. Li*, H.S. Luo, D.N. Fang*. Large and electric field tunable superelasticity in BaTiO3 crystals predicted by an incremental domain switching criterion. Appl Phys Lett, 102, 092905, 2013
33.  Xilong Zhou, Faxin Li*, Huarong Zeng. Mapping nanoscale domain patterns in ferroelectric ceramics by atomic force acoustic microscopy and piezoresponse force microscopy. J. Appl. Phys.  113, 187214, 2013
 
2012年
32. J. Fu, L.Z. Lin, X.L. Zhou, Y.W. Li, F.X. Li*. A macroscopic non-destructive testing system based on the cantilever-sample contact resonance. Review of Scientific Instruments. 83: 123707, 2012
31. L.Z. Lin, Y.P. Wan, F.X. Li*. An analytical nonlinear model for laminate multiferroic composites reproducing the dc-magnetic-bias dependent magnetoelectric properties. IEEE Transactions on Ultrasonics, Ferroelectrics & Frequency Control. 59(7): 1568-1574, 2012
30. Y.W. Li, F.X. Li*. In situ observation of electric field induced crack propagation in BaTiO3 crystals along the field direction.Scripta Materialia 67: 601-604, 2012

2011年
29.  X.L. Zhou, F.X. Li*. Simulations of domain evolution in morphotropic ferroelectric ceramics under electromechanical loading using an optimization-based model. J Appl Phys, 109, 084107, 2011
28.   F.X. Li*, X. L. Zhou. Simulations of gradual domain-switching in polycrystalline ferroelectrics using an optimization-based, multidomain-grain model. Computers and Structures, 89: 1142-1147, 2011
 
2010年
27.  Y.W. Li, F.X. Li*. Two-dimensional domain switching induced tensile fracture in a crack-free PZT ceramics under orthogonal electromechanical loading. Appl Phys Lett 97, 102903, 2010
26.  Y.W. Li, X.L. Zhou, F.X. Li*. Temperature dependent mechanical depolarization of ferroelectric ceramics. J Phys D-Appl Phys 43, 175501, 2010
25.  F.X. Li*, X.L. Zhou, A.K. Soh. An optimization-based “phase field” model for polycrystalline ferroelectrics. Appl Phys Lett96:152905, 2010
24.  F.X. LI*, A.K. Soh. An optimization-based computational model for domain evolution in polycrystalline ferroelastics. Acta Mater 58:2207-2215,2010
23.  Y.W. LI, F.X. LI*. Large anisotropy of fracture toughness in mechanically poled/depoled ferroelectric ceramics. Scripta Mater 62 : 313-316, 2010

2008-2009年
22. F.X. LI*, Y.W. LI. Modeling on domain switching in ferroelectric ceramics near the morphotropic phase boundary.J Appl Phys 105: 124105, 2009
21.  Y.M. Pei, D.N. Fang, F.X. LI. Giant forced volume magnetostriction in polycrystalline Tb0.3Dy0.7Fe1.95 alloys under magnetomechanical loading. J Mag Mag Mater 321: 2783-2787, 2009
20.    F.X. Li.    An inverse-pole-figure method for analysis of domain switching in polycrystalline ferroelectrics/ferroelastics. Scripta Mater, 59: 677-680, 2008
19.    M. Senousy, F.X. Li, D. Mumford, M. Gadala, R.K.N.D. Rajapakse. Thermo-Electro-Mechanical Performance of Piezoelectric Stack Actuators for Fuel Injector Applications. J. Intell. Mater. Syst. Struct. 20: 387-399, 2009
18.    F.X. Li, R.K.N.D. Rajapakse. Nonlinear finite element modeling of polycrystalline ferroelectrics based on constrained domain switching. Comp Mater Sci, 44(2): 322-329, 2008
17.    F.X. Li, R.K.N.D. Rajapakse, D. Mumford, M. Gadala, Quasi-static thermo-electromechanical behavior of piezoelectric stack actuators. Smart Mater Struct 17, 015049, 2008

2007年
16.    F.X. Li, R.K.N.D. Rajapakse, A constrained domain switching model for polycrystalline ferroelectric ceramics. Part I: model formulation and application to tetragonal materials. Acta Mater, 55: 6472-6480, 2007
15.    F.X. Li, R.K.N.D. Rajapakse, A constrained domain switching model for polycrystalline ferroelectric ceramics. Part II: combined switching and application to rhombohedral materials. Acta Mater, 55: 6481-6488, 2007
14.    F.X. Li, R.K.N.D. Rajapakse, Analytical saturated domain orientation texture and electromechanical properties of ferroelectric ceramics due to electric/mechanical poling J. Appl Phys 101, 054110, 2007
13.    F.X. Li, X.X. Yi, Z.Q. Cong and D.N. Fang, PZT nano-composites reinforced by small amount of MgO. Modern Phys Lett B, 21(24): 1605-1610, 2007
12.    Yuanming Liu, Faxin Li and Daining Fang, Anisotropy of domain switching in pre-poled lead titanate zirconate ceramics under multi-axial electric loading, Appl Phys Lett. 90, 032905, 2007
11.    Y.J. Jiang, D.N. Fang and F.X. Li, In-situ observation of electric field induced domain switching near a crack tip in poled PMNT62/38 single crystals. Appl Phys Lett 90, 222907 2007

2006年以前
10.   Faxin Li, Daining Fang and Yuanming Liu, Domain switching anisotropy in poled PZT ceramics under orthogonal electromechanical loading. J. Appl. Phys. 100, 084101, 2006
9.    Faxin Li, Daining Fang and Ai-Kah Soh, Theoretical saturated domain orientation states in ferroelectric ceramics, Scripta Mater. , 54(7): 1241-1246, 2006
8.   Faxin Li, Daining Fang, J.J. Lee and K.H. Cheol, Effects of compressive stress on the nonlinear electromechanical behavior of ferroelectric ceramics, Science in China E, 49 (1): 29-37, 2006
7.   Faxin Li, Shang Li and Daining Fang, Domain switching in Ferroelectric single crystal/ceramics under electromechanical loading, Mater. Sci. Engng B, 120(1-3): 119-124, 2005
6.   Faxin Li and Daining Fang, Effects of electrical boundary conditions and poling approaches on the mechanical depolarization behavior of PZT ceramics. Acta Mater., 53: 2665-2673, 2005
5.   Faxin Li and Daining Fang, Effects of lateral stress on the electromechanical response of ferroelectric ceramics: Experiments versus Model, J. Intell. Mater. Syst. Struct., 16(7-8): 583-588, 2005
4.   Daining Fang, Faxin Li, Ai Kah Soh and Tieqi Liu, Analysis of the electromechnical behavior of ferroelectric ceramics based on a nonlinear finite element model. Acta Mechanica Sinica, 21(3): 294-304, 2005
3.   Faxin Li and Daining Fang, Simulations of domain switching in ferroelectrics by a three-dimensional finite element model,Mech Mater, 36(10): 959-973, 2004
2.   Faxin Li, Daining Fang and Ai-Kah Soh, An analytical axisymmetric model for the poling-history dependent behavior of ferroelectric ceramics, Smart Mater. Struct. 13: 668-675, 2004
1.   Li Faxin, Fang Daining and Feng Xue, Effect of lateral pressure on the nonlinear behavior of PZT ceramics, Chinese Physics Letters, 20 (12): 2250-2251, 2003