教育经历 (Education)

普林斯顿大学          土木与环境工程           硕士 (2008),   博士 (2011)

Princeton University    Civil and Environmental Engineering        MS (2008),   PhD (2011)

华中科技大学          土木工程                     本科 (2003),   硕士 (2006)

Huazhong University of Sci. and Tech.    Civil Engineering      BS (2003),   MS (2006)

 

工作经历 (Employment History)

yl23455永利官网                    土木工程                   教授                                         2021至今

Sun Yat-Sen University       Civil Engineering              Professor    2021-present

佛蒙特大学               土木与环境工程         副教授,终身教职                  2018至2021

                                   机械工程 (第二院系)

                                   土木与环境工程         助理教授                                 2012至2018

University of Vermont    Civil and Environmental Engineering, 

                                       Mechanical Engineering (Secondary Appointment)

                                                                               Tenured Associate Professor,  2018-2021

                                     Civil and Environmental Engineering,     

                                                                               Tenure Track Assistant Professor,  2012-2018                

美国能源部橡树岭国家实验室

                              材料科学与技术部         博士后                                      2011至2012

U.S. Department of Energy Oak Ridge National Laboratory

Materials Science and Technology Division,   Postdoctoral Research Associate,    2011-2012                                                               

访问经历 (Visiting Positions)

麻省理工学院        土木与环境工程               访问学者                               2020.2至2020.8

M.I.T.            Civil and Environmental Engineering            Visiting Scholar         2020.2-2020.8

南洋理工大学        机械工学院               访问学者                               2019.10至2020.1

Nanyang Technological Univ.    Mechanical Engineering     Visiting Scholar          2019.10-2020.1

 

研究兴趣 (Research Interests)

基础设施材料,实验力学,文物保护

Infrastructural materials, Experimental mechanics, Heritage conservation  

 

学术论文 (Journals)

J.35   Z. Liu, J.M. Meyers*, J. Schindler, F. Sansoz, T. Tan*, D. Fletcher (2022), “In situ tensile behavior of Hi-Nicalon silicon carbide fibers exposed to high-temperature argon plasma”, Journal of the American Ceramic Society, 105, 525-537.

J.34   Z. Liu, R. Worley, F. Du, M. Dewoolkar, D. Huston, T. Tan* (2021), “Stress avalanches of polyethylene terephthalate fiber reinforced concrete beams during flexure”, Journal of Materials in Civil Engineering, 33, 04021355.

J.33   F. Du, T. Tan* (2021), “Recent studies in mechanical properties of selected hard-shelled seeds: A review”, JOM, 73, 1723-1735.

J.32   Z. Liu, R. Worley, F. Du, M. Dewoolkar, D. Huston, T. Tan* (2021), “Measurement of stress-time avalanches inside polypropylene fiber reinforced concrete beams during flexure”, Construction and Building Materials, 270, 121428.

J.31   Z. Liu, R. Worley, C, Giles, F. Du, M. Dewoolkar, D. Huston, T. Tan* (2021), “A study on avalanches of early age basalt fiber reinforced concrete beams during flexure”, Journal of Cleaner Production, 279, 123695.

J.30   Z. Liu, R. Worley, C, Giles, F. Du, M. Dewoolkar, D. Huston, T. Tan* (2020), “Avalanches during flexure of early-age steel fiber reinforced concrete beams”, Materials and Structures, 53, 76.

J.29   S. Alghamdi, Z. Liu, F. Du, J. Yang, K.A. Dahmen, T. Tan* (2020), “Sliding avalanches between nacreous tablets”, Nano Letters, 20, 7, 5024-5029. (Featured by Physics Magazine from American Physics Society in 2021,受美国物理协会物理杂志报道)

J.28   S. Alghamdi, F. Du, J. Yang, G. Pinder, T. Tan* (2020), “Tensile and shear behavior of microscale growth layers between nacre in red abalone”, Journal of the Mechanics and Physics of Solids, 138, 103928.

J.27   E. Ampaw, T A. Owoseni, F. Du, N. Pinilla, J. Obayemi, J.J. Hu, P. Nigay, A. Nzihou, V. Uzonwanne, Z. Kana, M. Dewoolkar, T. Tan, W. Soboyejo (2019), “Compressive deformation and failure of trabecular structures in a turtle shell”, Acta Biomaterialia, 97, 535-543.

J.26   F. Du, S. Alghamdi, B. Riabbans, T. Tan* (2019), “An experimental study on the fracture of a unidirectional carbon fiber-reinforced composite under quasistatic torsion”, Composites Part B: Engineering, 172, 547-554.

J.25   Y.J. Li, J. Yang, John Hughes, T. Tan* (2019), “An experimental study on adhesion between steel and cement pastes using particle probe scanning force microscopy”, Journal of the American Ceramic Society, 102, 1347-1361.

J.24   J. Wang, T. Tan (2019), “A method for evaluating the fatigue crack growth in spiral notch torsion fracture toughness test”, Archive of Applied Mechanics, 89, 813-822.

J.23   S. Alghamdi, F. Du, J. Yang, T. Tan* (2018), “The role of water in the initial sliding of nacreous tablets: findings from the torsional fracture of dry and hydrated nacre”, Journal of the Mechanical Behavior of Biomedical Materials, 88, 322-329.

J.22   Y.J. Li, J. Yang, T. Tan* (2018), “Measuring adhesion between early-stage cement and steel using particle probe scanning force microscopy”, Cement and Concrete Composites, 90, 126-135.

J.21   S. Alghamdi, T. Tan*, C. Hale-Sills, F. Vilmont, T. Xia, J. Yang, D. Huston, M. Dewoolkar (2017), “Catastrophic failure of nacre under pure shear stresses of torsion”, Scientific Reports, 7, 13123. (Top 100 in Materials Science by Scientific Reports in 2017,科学报告杂志Top100材料科学奖)

J.20   Y.J. Li, J. Yang, T. Tan* (2017), “Statistical analyses of aggregate mineral-binder adhesion measured using particle probe scanning force microscopes”, Transportation Research Record: Journal of the Transportation Research Board, 2632, 25-31.

J.19   T. Tan*, B. Ribbans (2017), “A bioinspired study on the compressive resistance of helicoidal fibre structures”, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 473, 20170538.

J.18   Y.J. Li, J. Yang, T. Tan* (2017), “Adhesion between modified binders and aggregate minerals at ambient conditions measured with particle-probe scanning force microscopes”, Journal of Materials in Civil Engineering, 29(8), 04017068.

J.17   E. Kim, J. Lee, P. Lee, D. Huston, T. Tan, S. Alghamdi (2017), “Reinforced cementitous composite with in situ shrinking microfibers”, Smart Materials and Structures, 26(3), 03LT01.

J.16   Y.J. Li, J. Yang, T. Tan* (2016), “Measuring adhesion between modified asphalt binders and aggregate minerals use of particle probe scanning force microscopes”, Transportation Research Record: Journal of the Transportation Research Board, 2574, 117-123.

J.15   B. Ribbans, Y.J. Li, T. Tan* (2016), “A bioinspired study on the interlaminar shear resistance of helicoidal fiber structures”, Journal of the Mechanical Behavior of Biomedical Materials, 56, 57-67.

J.14   Y.J. Li, J. Yang, T. Tan* (2015), “Study on adhesion between asphalt binders and aggregate minerals under ambient conditions using particle-modified atomic force microscope probes", Construction and Building Materials, 101, 159-165.

J.13   R. Wheeler, A. Pandey, A. Shyam, T. Tan, E. Lara-Curzio (2015), “Small scale mechanical characterization of thin foil materials via pin load microtesting”, Experimental Mechanics, 55(7), 1375-1387.

J.12   T. Tan*, T. Xia, H. O'Folan, J. Dao, Z. Basch, K. Johanson, J. Novotny, M. Ozeki, M. Smith (2015), “Sustainability in Beauty: an innovative Proposing-Learning model to inspire renewable energy education”, Journal of Sustainability Education, 8, ISSN: 2151-7452.

J.11   J. Wang, F. Ren, T. Tan, K. Liu (2015), “The development of in situ fracture toughness evaluation techniques in hydrogen environment”, International Journal of Hydrogen Energy, 40(4), 2013-2024.

J.10   T. Tong, T. Tan, N. Rahbar, W.O. Soboyejo (2014), “Mode mixity dependence of interfacial fracture toughness in organic electronic structures”, IEEE Transactions on Device and Materials Reliability, 14, 291-299.

J.9   H. Wang, J.J.A. Wang, T. Tan, H. Jiang, T. Cox., R.L. Howard, B.B. Bevard, M. Flanagan (2013), “Development of U-frame bending system for studying the vibration integrity of spent nuclear fuel”, Journal of Nuclear Materials, 440, 201-213.

J.8   T. Tan, J.J.A. Wang, F. Ren, E. Lara-Curzio, P. Agastra, J. Mandell, W.D. Bertelsen, C.M. LaFrance (2013), “Investigating fracture behavior of polymer and polymeric composites using the spiral notch torsion test”, Engineering Fracture Mechanics, 101, 109-128.

J.7   T. Tan, H. Savastano Jr., S.F. Santos, M. Radonjic, W.O. Soboyejo (2012), “ Fracture and resistance-curve behavior in hybrid natural fiber and polypropylene fiber reinforced composites”, Journal of Materials Science, 47(6), 2864-2874.

J.6   T. Tan, J. Meng, N. Rahbar, H. Li, G. Papandreou, C.A. Maryanoff, W.O. Soboyejo (2012), “Effects of silane on the interfacial fracture of a parylene film over a stainless steel substrate”, Materials Science and Engineering: C, 32(3), 550-557.

J.5   T. Tan, N. Rahbar, S. Kwofie, D. Dissmore, S. Allameh, Ghavomi, W.O. Soboyejo (2011), “Mechanical properties of functionally graded hierarchical bamboo structures”, Acta Biomaterialia, 7, 3796-3803.

J.4   T. Tan, N. Rahbar, A. Buono, G. Wheeler, W.O. Soboyejo (2011), “Sub-critical crack growth in adhesive/marble interfaces”, Materials Science and Engineering: A, 528(10), 3697-3704.

J.3   N. Rahbar, M. Jorjani, C. Riccardelli, G. Wheeler, I. Yakub, T. Tan, W.O.Soboyejo (2010), “Mixed mode fracture of adhesive/marble interfaces”, Materials Science and Engineering: A, 527(18), 4939-4946.

J.2   J. Meng, A. Orana, T. Tan, K. Wolf, N. Rahbar, H. Li, G. Papandreou, C.A. Maryanoff, W.O. Soboyejo (2010), “Adhesion and interfacial fracture in drug-eluting stents”, Journal of Materials Research, 25(4), 641-647.

J.1   G. Xu, J. Wei, T. Tan, H.Q. Liu (2007), “Modeling bond strength of corroded plain bar reinforcement in concrete”, Structural Concrete, 8(3), 133-138.

*Corresponding author

 

学术专著 (Chapters)

Bc.2  T. Tan* and W. Soboyejo, “Bamboo inspired materials and structures”, Bioinspired Structures and Design, Cambridge University Press, 89-110, 2020.

Bc.1  T. Tan*, Y.J. Li, and J. Yang, “An experimental study of adhesion between aggregate minerals and asphalt binders using particle probe scanning force microscopy”, Transactions on Engineering Technologies, Springer, 109-120, 2017.

 

部分会议文章 (Conference Proceedings)

C.9  F. Du, J. Wang, T. Tan (2021) “Study on fracture of fiber-reinforced polymeric composites using Spiral Notch Torsion Test”, Lecture Notes in Civil Engineering, 151-165.

C.8  T. Tan, Y.J. Li, and J. Yang (2017) “Quantification of aggregate-Binder adhesion in asphalt mixtures using particle probe scanning force microscopes”, Proceedings of World Symposium on Civil Engineering 2017, 1063-1067. (Best Merit Award,最佳论文质量奖)

C.7  T. Tan, N. Rahbar, C. Riccardelli, G. Wheeler, W. Soboyejo (2016) “Fracture on marble-adhesive interfaces of restored art structures ”, Proceedings of Materials Science and Technology Conference and Exhibition 2016, Salt Lake City, UT, 839-846. (Invited paper by American Ceramic Society,美国陶瓷协会特邀报告)

C.5  Y.J. Li, J. Yang, and T. Tan (2015) “Study on adhesion between an asphalt binder and aggregate minerals using particle-modified atomic force microscope tips”, Transportation Research Board 2015 Annual Meeting compendium of papers, Washington, DC, No.15-4966.

C.4  T. Tan, T. Xia, H. O'Folan, J. Dao, Z. Basch, K. Johanson, M. Ozeki, M. Smith (2014) “Sustainability in beauty: a review and extension of bamboo inspired materials”, Proceedings of the 13th International Symposium on Multiscale, Multifunctional and Functionally Graded Materials, Sao Paulo, Brazil, 1(1), 18-21.

C.3  J.J.A. Wang, T. Tan, H. Jiang (2013) “Using spiral notch torsion test to evaluate fracture toughness of structural materials and polymeric composites”, 19th International Conference on Composite Materials, Montreal, Canada.

C.2  J.J.A. Wang, F. Ren, T. Tan (2012) “Spiral notch torsion test use for determining fracture toughness of structural materials”, ASME 2012 Pressure Vessels and Piping Conference, 6, 119-124.

 

专利 (Patents)

Pt.2  L. Patrick, D. Huston, T. Tan (2018) “Self-stressing engineered composite materials, methods of self-stressing engineered composite materials, and self-stressing reinforcement”, US11027519B2.

Pt.1  J.J.A. Wang, H. Wang, T. Tan (2014) “Reversal bending fatigue testing”, US8863585.

 

技术报告 (Technical Reports)

R.3   J.J.A. Wang, T. Tan, H. Jiang, W. Zhang, Z.L. Feng (2012) “Developing fatigue pre-crack procedure to evaluate fracture toughness of pipeline steels using spiral notch torsion test”, ORNL/TM-2012/337, Oak Ridge National Laboratory, Oak Ridge, TN.

R.2   J.J.A. Wang, H. Wang, T. Tan, H. Jiang, T. Cox, Y. Yan (2011) “Progress letter report on U-frame test setup and bending fatigue test for vibration integrity study”, ORNL/TM-2011/531, Oak Ridge National Laboratory, Oak Ridge, TN.

R.1   J.J.A. Wang, F. Ren, T. Tan, J., Mandell, P., Agastra (2011) “An innovative technique for evaluating the integrity and durability of wind turbine blade composites – project final report”, ORNL/TM-2011/449, Oak Ridge National Laboratory, Oak Ridge, TN.

 

寄语学生 (Positions)

       团队招收硕士生,博士生,博士后和及特聘研究员。欢迎具有土木,材料,力学,环境及相关背景的同学和研究者; 以及世界各地留学生的加入。有兴趣的同学请将简历发送至邮箱tant23@mail.sysu.edu.cn

       We are recruting graduate students and postdoctoral researchers. If you are interested in joining our team, please send your CV to Dr. Tan at the email address: tant23@mail.sysu.edu.cn