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卢天健*

来源:航空宇航学院 作者:张心莹 点击:4758 发布时间:2018-04-21 17:34:30

姓名

 卢天健


性别

 

职称

 教授

职务

 

学历/学位

 博士

导师类别

 博导

所在学院

 航空宇航学院

专业

 工程力学、飞行器设计

研究方向

多功能超轻多孔材料与结构的一体化设计、制备及其热--声学性能表征

断裂、疲劳和蠕变力学

热传导(传导、对流和辐射)、散热管理

声吸收、声传播、噪音/振动控制,声学超材料

生物力学,生物尺寸效应

生物组织热--电耦合学,仿生工程

基于水凝胶的4D生物打印技术及其应

微流控技术,基于试纸的生物即时检测技术

社会兼职

兼任中国力学学会国际理论与应用力学联盟(IUTAM)工作组组长、IUTAM大会委员会委员、IUTAM固体力学奖评审委员会委员、Elsevier出版集团学术顾问委员会委员、中国力学学会旗舰期刊Acta Mechanica Sinica主编;曾任西安交通大学副校长、中国力学学会副理事长、教育部科技委数理学部副主任。

荣誉称号

国家级人才,杰出青年基金获得者;连续两个“973”项目首席科学家;连续两个“111”项目首席科学家

科研情况

长期致力于力学、材料学、传热学、声学、生命科学等学科的综合交叉基础和应用研究,我国超轻多孔金属材料和结构、生物组织热--电耦合学的主要学术带头人。重要成果体现在5  ESI高被引论文、2  Prog Mater SciIF=31)、10JMPS(国际固体力学标志性期刊)论文、2  Adv Appl Mech(国际力学领域标志性综述丛书)及200余篇SCI论文中,获选“中国百篇最具影响国内学术论文”和“中国百篇最具国际影响力论文”各 1篇,Google引用16000余次,SCI他引8000余次,获授权发明专利25项。以第一获奖人获国家自然科学二等奖1项、省部级 科技一等奖2项。研究成果在载人航天、国防、公共安全、能源、生物医学等领域实现若干重要应用。

主要科研成果

书籍/杂志编辑:

W. Soboyejo, A.G.   Evans, T.J. Lu et al. (Eds.), Mechanics of Cellular and Porous Materials,   special issue of Mechanics of Materials, August 2004, Elsevier Ltd.

F. Xu, T.J. Lu   & E.X. Guo (Eds.), Multiscale Biothermal and Biomechanical Behaviors of   Biological Materials, Theme Issue of Philosophical Transactions of the Royal   Society A: Mathematical, Physical and Engineering Sciences 368, 517-519,   2010. (IF 2.7)

A.M.K. Esawi,   G.M. Genin, T.J. Lu, U.G.K. Wegst & J.J. Wilker (Eds.), Interfaces in   materials, biology and physiology, Proceedings of the 2012 Spring Materials   Research, Society Meeting. Cambridge, UK: Cambridge, 2012.

F. Xu, T.J. Lu   & R. Zannoli (Eds.), Special Issue: The 18th International Conference on   Mechanics in Medicine and Biology Xi’an, China, October 16 – 19, 2012,   Journal of Mechanics in Medicine and Biology 13(5), October 2013.

 

专著、专著章节(部分)

Chen, Y.-H. &   Lu, T.J.(卢天健), Cracks and Fracture in   Piezoelectric Ceramics. In Hassan Aref and Erik van der Giessen, editors:   Advances in Applied Mechanics, Vol. 39, Burlington: Academic Press, 2002, pp.   127-221.

何德坪,卢天健等,超轻多孔金属,科学出版社, 2008.

Xu, F. & Lu,   T.J., Skin Biothermomechanics: Modeling and Experimental Characterization, in   Hassan Aref and Erik van der Giessen, editors: Advances in Applied Mechanics,   Vol. 43, Burlington: Academic Press, 2009, pp. 147-248.

Kim, T., Song,   S.J. & Lu, T.J., Flow & Heat Transfer Measurement Techniques, Xian   Jiaotong University Press, 2009.

Xu, F. & Lu,   T.J., Introduction to Skin Biothermomechanics and Thermal Pain,   Springer/Science Press, 2010. (国家科学技术学术著作出版基金资助)

卢天健,徐峰,文婷,周期性多孔金属材料的热流性能,科学出版社, 2010.

卢天健,辛锋先,轻质板壳结构设计的振动和声学基础,科学出版社, 2011.

Lu, T.J., Xu, F.   & Wen, T., Thermofluid Behaviour of Periodic Cellular Metals,   Springer/Science Press, 2013.

Lin, M., Xu, F.,   Lu, T.J., Bai, B.F. & Genin, G., Thermal pain in tooth: heat transfer,   thermomechanics, and ion transport, in Transport in Biological Media, edited   by A. Kuznetsov and S. Becker, Elsevier, 2013.

Lu, T.J. &   Xin, F.X., Vibroacoustics of Lightweight Sandwich Structures, Berlin   Heidelberg: Springer, 2014.

Han, Y.L., Huang,   G.Y., Fan, X.X., Li, F., Wang, P.F., Lu, T.J. & Xu, F., High-throughput   imaging methodologies for biomechanical testing, in CRC Handbook of Imaging   in Biological Mechanics, CRC Press, 2014.

徐峰,卢天健,皮肤热力学及皮肤热疼痛,科学出版社, 2014 (国家科学技术学术著作出版基金资助). 第一作者为卢天健指导的博士生

卢天健,林敏,徐峰,牙齿的热--电生理耦合行为,科学出版社,   2015 (国家科学技术学术著作出版基金资助).

 

学术期刊论文

组织工程、生物组织热--电耦合学、即时检测、4D生物打印(部分)

1.Xu, F., T. Wen,   Lu, T.J. & K.A. Seffen, “Biothermomechanics of skin tissues”, J. Mech.   Phys. Solids 56, 1852-1884, 2008.

2.Xu, F., Lu,   T.J. & K.A. Seffen, “Biothermomechanical behavior of skin tissue” (Invited   contribution), Acta Mechanica Sinica, 24(1), 1-23, 2008. (Top 10 most   downloaded AMS articles of all time).

3.Xu, F., T. Wen,   K.A. Seffen & Lu, T.J., “Non-Fourier analysis of skin thermomechanics”,   Int. J. Heat Mass Transfer, 51, 2237-2259, 2008.

4.Xu, F., Lu,   T.J., K.A. Seffen & E.Y.K. Ng, “Bioheat transfer of skin tissue”, Applied   Mechanics Review, 62(5), 050801, 2009.

5.Lin, M., Xu,   F., Lu, T.J. & Bai, B.F., A review of   heat transfer in human tooth - experimental characterization and mathematical   modeling, Dental Mater., 26(6), 501-513, 2010. ScienceDirect TOP25 Hottest Articles, 2010

6.Lin, M., Luo,   Z.Y., Xu, F., Bai, B.F. & Lu, T.J., “Analysis of thermal-induced dentinal   fluid flow and its implications in dental thermal pain”, Achieve of Oral   Biology 56(9): 846-854, 2011.

7.Guo, Y.Q., Xu,   F., Lu, T.J., Duan, Z.F. & Zhang, Z., Interleukin-6   signaling pathway in targeted therapy for cancer,   Cancer Treatment Reviews (IF 6.8) 38(7), 904-910, 2012. (ESI高被引论文)

8.Lin, M., Zhao,   Y., Wang, S.Q., Liu, M., Duan Z.F., Chen, Y.M., Xu, F. & Lu, T.J.,   “Recent advances in synthesis and surface modification of lanthanide-doped   upconversion nanoparticles for biomedical applications”, Biotechology   Advances (IF = 9.6) 30(6), 1551-1561, 2012. (ESI高被引论文)

9.Li, Y.H.,   Huang, G.Y., Zhang, X.H., Li, B.Q., Chen, Y.M., Lu, T.L., Lu, T.J. & Xu,   F., Magnetic hydrogels and their potential biomedical   applications, Advanced Functional Mater. (IF 10.179)   23(6), 660-672, 2013. ESI高被引论文

10.Han, Y.L.,   Wang, W.Q., Hu, J., Huang, G.Y., Wang, S.Q., Lee, W.G., Lu, T.J. & Xu,   F., “Benchtop fabrication of three-dimensional reconfigurable microfluidic   devices from paper/polymer composite”, Lab on a Chip (IF 5.697) 13(24),   4745-4749, 2013.

11.Hu, J., Wang,   L., Li, F., Han, Y.L., Lin, M., Lu, T.J. & Xu, F.,   “Oligonucleotide-linked gold nanoparticle aggregates for enhanced sensitivity   in lateral flow assays”, Lab on a Chip (IF 5.697) 13(22), 4352-4357, 2013.

12.Hu, J., Wang,   S.Q., Wang, L., Li, F., Lu, T.J. & Xu, F., Advances in   paper-based point-of-care diagnostics, Biosensors   and Bioelectronics (一区,IF 5.437) 54, 585-597, 2014   (2014年中国百篇最具影响国际学术论文) (ESI高被引论文)

13.Li, Y.H.,   Huang, G.Y., Zhang, X.H., Du, Y.N., Lu, T.J. & Xu, F., “Engineering cell   alignment in vitro”, Biotechnology Advances (IF 9.599) 32(2), 347-365, 2014.

14.Lin, M.,   Genin, G., Xu, F. & Lu, T.J., “Thermal pain in theeth: electrophysiology   governed by thermomechanics”, Appl. Mech. Rev. 66(3), 030801, 2014.

15.Han, Y.L.,   Wang, S.Q., Zhang, X.H., Li, Y.H., Huang, G.Y., Qi, H., Lu, T.J. & Xu,   F., “Engineering physical microenvironment for stem cell based regenerative   medicine”, Drug Discovery Today (IF 6.55) 19(6), 763-773, 2014.

16.Lin, M., Zhao,   Y., Liu, M., Qiu, M.S., Dong, Y.Q., Duan, Z.F., Li, Y.H., Pingguan-Murphy,   B., Lu, T.J. & Xu, F., “Synthesis of upconversion NaYF4:Yb3+,Er3+   particles with enhanced luminescent intensity through control of morphology   and phase”, J. Mater. Chem. C 2(19), 3671-3676, 2014. (Front cover article)

17.Feng, A.L.,   You, M.L., Tian, L.M., Singamaneni, S., Liu, M., Duan, Z.F., Lu, T.J., Xu, F.   & Lin, M., “Distance-dependent plasmon-enhanced fluorescence of   upconversion nanoparticles using polyelectrolyte multilayers as tunable   spacers”, Scientific Reports (IF 5.078) 5, 7779, 2015. (ESI高被引论文)

18.Wang, L., Li,   Y.H., Chen, B., Liu, S.B., Li, M.X., Zheng, L., Wang, P.F., Lu, T.J. &   Xu, F., “Patterning cellular alignment through stretching hydrogels with   programmable strain gradients”, ACS Appl. Mater. & Interfaces (IF 5.90)   7(27), 15088-15097, 2015.

19.Wang, L., Qiu,   M.S., Yang, Q.Z., Li, Y.H., Huang, G.Y., Lin, M., Lu, T.J. & Xu, F.,   “Fabrication of microscale hydrogels with tailored microstructures based on   liquid bridge phenomenon, ACS Appl. Mater. Interfacses (front cover article)   7(21), 11134-11140, 2015.

20.Zhao, H.X.,   Zhang, X.H., Lu, T.J. & Xu, F., “Recent advances in electrospun   nanofibrous scaffolds for cardiac tissue engineering”, Adv. Funct. Mater.   (IF=11.805) 25(36), 5726-5738, 2015.

21.Li, Y.H.,   Poon, C.T., Li, M.X., Lu, T.J., Pingguan-Murphy, B. & Xu, F., “Chinese   noodle inspired muscle myofiber regeneration”, Adv. Funct. Mater. (IF=11.805)   25(37), 5999-6008, 2015.

22.Lin, M., Gao,   Y., Hornicek, F., Xu, F., Lu, T.J., Amiji M. & Duan, Z.F., “Near-infrared   light activated delivery platform for cancer therapy”, Advances in Colloid   and Interface Science (IF 7.77) 226, 123-137, 2015.

23.Wang, L., Li,   Y.H., Huang, G.Y., Zhang, X.H., Pingguan-Murphy, B., Lu, T.J. & Xu, F.,   “Hydrogel-based methods for engineering cellular microenvironment with   spatiotemporal gradients, Critical Reviews in Biotechnology (IF 5.1) 36(3),   553-565, 2016.

24.Hu, J., Cui,   X.Y., Gong, Y., Xu, X.Y., Gao, B., Wen, T., Lu, T.J. & Xu, F., “Portable   microfluidic and smartphone-based devices for monitoring of cardiovascular   diseases at the point of care”, Biotechnology Advances (IF 9.015) 34(3),   305-320, 2016.

25.Cagang, A.,   Abidi, I., Tyagi, A., Hu, B., Feng Xu, Lu, T.J. & Luo, Z.T.,   “Graphene-based field effect transistor in two-dimensional paper networks”,   Analytica Chimica Acta 917, 101-106, 2016.

26.Li, Y.H.,   Huang, G.Y., Li, M.X., Genin, G.M., Lu, T.J. & Xu, F.,   “Magnetically-actuated cell-laden microscale hydrogels for probing   strain-induced cell responses in three dimensions”, NPG Asia Materials (IF   10.118), 2016, in press.

27.Zhou, L.H.,   Liu, S.B., Wang, P.F., Lu, T.J., Xu, F., Genin, G., Lu, T.J. & Pickard,   P.G., “The arabidopsis trichome is an active mechanosensory switch”, Plant   Cell & Environment (IF 6.960), 2016, in press.

 

本构关系(部分)

28.Chen, C., Lu,   T.J. & Fleck, N.A., '‘Effect of imperfections on the yielding of   two-dimensional foams’, J. Mech. Phys. Solids 47, 2235-2272, 1999.

29.Chen, C. &   Lu, T.J., 'A phenomenological framework of constitutive modelling for   incompressible and compressible elasto-plastic solids', Int. J. Solids Struc.   37, 7769-7786, 2000.

30.Chen, Y.-H.   & Lu, T.J., Recent developments in invariant integrals, Appl. Mech.   Review 56(5), 515-552, 2003.

31.Hu, G.K., Liu,   X.N. & Lu, T.J., “A variational method for nonlinear micropolar   composites”, Mech. Mater. 37, 407-425, 2005.

32.Zhao KJ, Chen   C, Shen YP, Lu TJ. Molecular dynamics study of nano-void growth in   face-centered cubic single crystal copper. Computational Materials Science   46, 749-754, 2009.

33.倪长也,金 峰,卢天健,李裕春,“3种点阵金属三明治板的抗侵彻性能模拟分析”,《力学学报》,42(6):   1125-1137, 2010

34.Li, B.C.,   Zhao, G.P. & Lu, T.J., A double degree freedom mass-spring-damper-foam   collision model for low velocity impact, ASME J. Appl. Mech. 79(5), 051021,   2012.

35.Liu, X.R.,   Tian, X.G., Lu, T.J., Zhou, D.Q. & Liang, B., Blast resistance of   sandwich-walled hollow cylinders with graded metallic foam cores, Comp.   Struc. 94, 2485-2493, 2012. DOI:10.1016/j.compstruct.2012.02.029

36.Jin, M.Z.,   Chen, C. & Lu, T.J., ‘The mechanical behavior of porous metal fiber   sintered sheets’, J. Mech. Phys. Solids 61(1), 161-174, 2013.

37.Ni, C.Y., Li,   Y.C., Xin, F.X., Jin, F. & Lu, T.J., ‘Ballistic resistance of   hybrid-cored sandwich plates: numerical and experimental assessment’,   Composites A46, 69-79, 2013.  

38.Yan, L.L., Yu,   B., Han, B., Chen, C.Q., Zhang, Q.C. & Lu, T.J., Compressive strength and   energy absorption of sandwich panels with aluminum foam-filled corrugated   cores, Comp. Sci. Tech. 86, 142-148, 2013.

39.张钱诚,郝方楠,李裕春,于渤,刘剑锋,金峰,卢天健,“爆炸冲击载荷作用下车辆和人员的损伤及其防护”,《力学与实践》36(5): 527-5392014(封面文章)。

40.Yan, L.L.,   Han, B., Chen, C.Q., Zhang, Q.C. & Lu, T.J., Three-point bending of   sandwich beams with aluminum foam-filled corrugated cores, Mater. Design. 60,   510-519, 2014.

41.Han, B., Xu,   Y., Yu, B., Chen, C.Q., Zhang, Q.C. & Lu, T.J., Foam filling radically   enhances transverse shear response of corrugated sandwich plates, Mater.   Design 77, 132-141, 2015.

42.Yu, B., Yan,   L.L., Han, B., Zhang, Q.C., Chen, C.Q., Jin, F. & Lu, T.J., Dynamic   crushing of all-metallic corrugated panels filled with close-celled aluminum   foams, ASME J. Appl. Mech. 82(1), 011006, 2015.

43.Han, B., Qin,   K.K., Yu, B., Zhang, Q.C., Chen, C.Q. & Lu, T.J., Design optimization of   foam-reinforced corrguated sandwich beams, Comp. Struc. 130, 51-62, 2015.

44. Ni, C.Y.,   Hou, R., Xia, H.Y, Zhang, Q.C., Wang, W.B., Cheng, Z.H., & Lu, T.J.,   ‘Perforation resistance of corrugated metallic sandwich plates filled with   reactive powder concrete: Experiment and simulation’,Comp. Struc. 127,   426-435, 2015.  

45.Yu, B., Han,   B., Su, P.B., Ni, C.Y., Zhang, Q.C. & Lu, T.J.,  Graded square honeycomb as sandwich core   for enhanced mechanical performance, Mater. Design 89, 642-652, 2016.

46.Han, B., Qin,   K.K., Yu, B., Wang, B., Zhang, Q.C. & Lu, T.J., Honeycomb-corrugation   hybrid as a novel sandwich core for significantly enhanced compressive   performance, Mater. Design 93, 271-282, 2016.

 

断裂、损伤力学(部分)

47.Chow, C.L.   & Lu, T.J., 'On evolution laws of anisotropic damage', Eng. Frac. Mech.   34, 679-701, 1989.

48.Lu, T.J., Xia,   Z.C. & Hutchinson, J.W., 'Delamination of beams under transverse shear   and bending', Mater. Sci. Eng. A188, 102-113, 1994.

49.Lu, T.J.,   'Crack branching in all-oxide ceramic composites', J. Amer. Ceram. Soc. 79,   266-274, 1996.

50.Chen, C., Lu,   T.J. & Fleck, N.A., “The mode I crack growth resistance of metallic   foams”, J. Mech. Phys. Solids 49, 231-259, 2001.

51.Wang, F.,   Huang, P. & Lu, T.J., “Surface-effect territory in small volume creep   deformation”, J. Mater. Res. 24(11), 3277-3285, 2010.

52.Huang, P.,   Wang, F., Xu, M., Xu, K.W. & Lu, T.J., “The dependence of strain rate   sensitivity upon deformed-microstructures in nanocrystalline Cu”, Acta Mater.   58(15), 5196-5205, 2010.

53.Xiong, Q.L.,   Tian, X.G. & Lu, T.J., “Atomistic modeling of electron relaxation effect   on femtosecond laser-induced ablation and spallation of gold films”, J. Appl.   Phys. 112, 024313, 2012, doi: 10.1063/1.4739256.

54.Zhou Q., Zhao   J., Xie J.Y., Wang F., Huang P., Lu, T.J. & Xu, K.W., “Grain size   dependent strain rate sensitivity and activation volume in nanocrystalline   body-centered cubic metal thin films” Mater. Sci. Eng. A 608, 184-189, 2014.

55.Zhou, Q.,   Wang, F., Huang, P., Xu, K.W. & Lu, T.J., “The mechanical behavior of   nanoscale metallic multilayers: a survey” (invited contribution for 60th   anniversary), Acta Mech. Sinica 31(3), 319-337, 2015. (Top 10 most read   articles published in 2015.)

56.Zhou, Q., Li,   J.J., Wang, F., Huang, P., Xu, K.W. & Lu, T.J., “Strain rate sensitivity   of Cu/Ta multilayered films: Comparison between grain boundary and   heterophase interface”, Scripta Mater. 111, 123-126, 2016.

57.Cui, Y.,   Huang, P., Torrents Abad, O., Wang, F., Lu, T.J., Xu, K.W. & Wang   J,“Plastic deformation modes of CuZr/Cu multilayers”, Scientific Reports 6,   23306, 2016.

58.Gu, C., Wang,   F., Huang, P., Lu, T.J. & Xu, K.W., “Structure-dependent size effects in   CuTa/Cu nanolaminates”, Mater. Sci. Eng. A658, 381-388, 2016. 

 

优化设计(部分)

59.Gu, S., Lu,   T.J. & Evans, A.G., “On the design of two-dimensional cellular metals for   combined heat dissipation and structural load capacity”, Int. J. Heat Mass   Transfer 44, 2163-2175, 2001.

60.Liu, J.S.   & Lu, T.J., Multi-objective and multi-loading optimization of   ultralightweight truss materials, Int. J. Solids Struc., 41, 619-635, 2004.

61.Tian, Y.S.,   Lu, T.J., Optimal design of compression corrugated panels, Thin-Walled Struc.   43, 477-498, 2005.

62.Liu, T., Deng,   Z.C. & Lu, T.J., “Design optimization of truss-cored sandwiches with   homogenization”, Int. J. Solids Struc. 43, 2006, 7891-7918

63.Wen, T., F. Xu   & Lu, T.J., “Structural optimization of two-dimensional cellular metals   cooled by forced convection”, Int. J. Heat Mass Transfer 50, 2007, 2590-2604.

64.Liu, T., Deng,   Z.C. & Lu, T.J., “Minimum weights of pressurized hollow cylinders with   ultralight sandwich walls”, Int. J. Solids Struc. 44, 2007, 3231-3266.

65.Mai P.S.,   Fleck, N.A. & Lu, T.J., “Optimal design of box-section sandwich beams in   three-point bending”, Int. J. Solids Struc. 44, 2007, 4742-4769 (Top 10   downloaded papers in IJSS).

66.Liu, T., Deng,   Z.C. & Lu, T.J., “Bi-functional optimization of actively cooled,   pressurized hollow sandwich cylinders with prismatic cores”, J. Mech. Phys.   Solids 55(12), 2565-2602, 2007.

67.Liu, T., Deng,   Z.C. & Lu, T.J., “Analytical modeling and finite element simulation of   the plastic collapse of sandwich beams with pin-reinforced foam cores”, Int.   J. Solids Struc., 45, 5127-5151, 2008.

68.Zhang, Q.C.,   Yang, X.H., Li, P., Huang, G.Y., Feng, S.S., Shen, C., Han, B., Zhang, X.H.,   Jin, F., Xu, F. & Lu, T.J., “Bioinspired engineering of honeycomb   structure - using nature to inspire human innovation”,Prog. Mater. Sci. (IF   27.7) 74, 332-400, 2015.

学术经历

2018-至今  南京航空航天大学多功能轻量化材料与结构研究中心(MLMS)主任

2014-2018  西安交通大学“领军学者”

2011-2018  多功能材料与结构教育部重点实验室(LMMS)主任

2010-2018  “仿生工程与生物力学”多学科交叉研究中心(BEBC)主任

2008-2018  西安交通大学崇实书院院长

2004-2014  西安交通大学副校长、校学术委员会常务副主任(改革开放后我国高校从海外直接聘请的第一位副校长);航天航空学院特聘教授、博导

1996-2006  历任英国剑桥大学工程系讲师、Reader   和终身讲席教授(Chair Professor

其它

 邮箱:tjlu@nuaa.edu.cn;多功能轻量化材料与结构研究中心网址:http://mlms.nuaa.edu.cn/

 


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