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个人简介

Education Sc.D., Massachusetts Institute of Technology, 2003 Ph.D.,Tsinghua University, China, 1999 B.S., Tsinghua University, China, 1994 Background Dr. Qi joined Tech in January 2014 as an associate professor and was promoted to a full professor in March 2016. Prior, he was an associate professor at University of Colorado Boulder (2004-2013) and was a postdoctoral fellow at MIT (2003-2004). He is currently seeking talented undergraduate and PhD students and postdocs. Distinctions & Awards ASME Fellow (2015) The Woodruff Faculty Fellow (2015) J. T. Oden Faculty Fellowship, UT Austin, (2012) AFRL summer faculty fellowship (2010-2012) Mechanical Engineering Outstanding Research Award (2009) Mechanical Engineering Chair Faculty Fellow (2008) NSF Career Award (2007) Woodward Outstanding Mechanical Engineering Faculty (2006-2007)

研究领域

Mechanics of Materials; Soft active materials; 3D/4D printing technology; 3D printing of active materials and structures; Design of active materials and structures; Recyclable polymer systems; Experimental characterization and constitutive modeling of nonlinear thermoviscoelastic behaviors of polymers; Polymer physics and mechanics; Photo-mechanics of light activated polymers; Shape memory polymers; Nonlinear finite element analysis; Mechanics of soft tissue growth.

近期论文

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Yu, K., Shi, Q., Li, H., Jabour, J., Yang, H., Dunn, M.L., Wang, T., and Qi, H.J., 2016. Interfacial Welding of Dynamic Covalent Network Polymers, Journal of Mechanics and Physics of Solids, in press. Mao, Y., Ding, Z., Yuan, C., Ai, S., Isakov, M., Wu, J., Wang, T., Dunn, M.L., Qi, H.J., 2016. 3D Printed Reversible Shape Changing Component with Stimuli Responsive Materials. Scientific Reports, in press Wu, J., Yuan, C., Ding, Z., Isakov, M., Mao, Y., Wang, T., Dunn, M.L., Qi, H.J., 2016. Multi-shape active composites by 3D printing of digital shape memory polymers. Scientific Reports, in press. Yang, H., Yu, K., Wei, Y., Guo, Y., Qi, H.J., 2016. Molecular Dynamics Studying on Welding Behavior in Thermoset Polymers due to Bond Exchange Reactions. RSC Advances, 6, 22476–22487. Taynton, P., Ni, H., Zhu, C., Yu, K., Loob, S., Jin, Y., Qi, H.J., and Zhang, W., 2016. Repairable Woven Carbon Fiber Composites with Full Recyclability Enabled by Malleable Polyimine Networks, Advanced Materials, in press. Mao, Y., Robertson, J.M., Mu, X., Mather, P., Qi, H.J., 2015, Thermoviscoplastic behaviors of anisotropic shape memory elastomeric composites for cold programmed non-affine shape change, Journal of Mechanics and Physics of Solids, 85:219-244. Mao, Y., Yu, K., Isakov, M., Wu, J., Dunn, M.L., and Qi, H.J., 2015. Sequential Self-Folding Structures by 3D Printed Digital Shape Memory Polymers, Scientific Reports, 5:13616. Yang, H., Yu, K., Mu X., Shi, X., Wei, Y., Guo, Y. Qi, H.J., 2015. A molecular dynamics study of bond exchange reactions in covalent adaptable networks. Soft Matter, 11, 6305-6317. Zhao, Q., Qi, H.J., Xie, T., 2015. Recent Progress in Shape Memory Polymer: New Behaviors, Enabling Materials, and Mechanistic Understanding, Progress in Polymer Science, 49-50:79-120. Mu, X., Sowan, N., Tumbic, J.A., Bowman, C.N., Mather, P.T., Qi, H.J., 2015. Photo-Induced Bending in a Light-Activated Polymer Laminated Composite, Soft Matter, 11(13), 2673-2682. Ge, Q., Dunn, C., Qi, H.J., Dunn, M.L., 2014. Active Origami by 4D Printing, Smart Materials and Structures, 23, 094007-15. (Selected as Highlights of 2014) Ma, J., Mu, X., Bowman, C.N., Sun, Y., Dunn, M.L., Qi, H.J., Fang, D.N., 2014. A Photoviscoplastic Model for Photo Activated Covalent Adaptive Networks. J. Mech. Phys. Solids., 70, 84-103. Taynton, P., Yu, K., Shoemaker, R., Jin, Y., Qi, H.J., Zhang, W., 2014. Heat or water driven self-healing in a highly-recyclable covalent network polymer, Advanced Materials, v26, 23:3938-3942. Yu, K., Ge, Q., Qi, H.J., 2014, Reduced Time as a Unified Parameter Determining Fixity and Free Recovery of Shape Memory Polymers, Nature Communication, 5:3066. Ge, Q., Qi, H.J., Dunn, M.L., 2013, Active Materials by 4D Printing, Applied Physics Letter, 103, 131901. (Reported by NPR, ABC, and many other medias) Jennie Ryu, J., D’Ameto, M., Cui, X., Long,K.N., Qi, H.J., Dunn, M.L., 2012. Photo-Origami-Bending and folding polymers with light, Applied Physics Letter, 100, 161908. Ge, Q., Luo, X., Rodriguez, E.D., Zhang, X., Mather, P., Dunn, M.L., Qi, H.J., 2012, Thermo-mechanical Behaviors of Shape Memory Elastomer Composites, J. Mech. Phys. Solids., v60, 67-83. Westbrook, K.K., Kao, P.H., Castro, F., Ding, Y., Qi,H.J., 2011. A 3D Finite Deformation Constitutive Model for Amorphous Shape Memory Polymers: A Multi-Branch Modeling Approach for Nonequilibrium Relaxation Processes. Mechanics of Materials, v43: 853-869. Wang, A., Hansen, C, Ge, Q., Maruf, S. H., Ahn, D. U., Qi, H.J., and Ding, Y., 2011, Programmable, Pattern-Memorizing Polymer Surface, Advanced Materials, 23:3669-3673. Long, K. N., Scott, T. F., Qi, H. J., Bowman, C. N., and Dunn., M. L., 2009. Photomechanics of Light-Activated Polymers, J. Mech. Phys. Solids, 57:1103-1121. T. D. Nguyen, H. J. Qi, F. Castro, K.N. Long, 2008. A thermoviscoelastic model for amorphous shape memory polymers: Incorporating structural and stress relaxation, J. Mech. Phys. Solids,56:2792-2814. H.J. Qi, T.D. Nguyen, F. Castro, C. Yakacki, R. Shandas, 2008. Finite Deformation Thermo-Mechanical Behavior of Thermally Induced Shape Memory Polymers, J. Mech. Phys. Solids, 56:1730-1751.

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