Journal Papers:
(1) Ting Tan, Zhimiao Yan*, Muhammad R. Hajj. Electromechanical decoupled model for cantilever-beam piezoelectric energy harvesters, Applied Physics Letters, 2016, 109(25): 101908 (IF:3.411, JCR:Q1)
(2) Ting Tan, Zhimiao Yan*, Wenhu Huang, Broadband design of hybrid piezoelectric energy harvester, International Journal of Mechanical Sciences, 2017, 131-132: 516-526 (IF:2.884, JCR:Q1)
(3) Ting Tan, Zhimiao Yan*. Analytical solution and optimal design for galloping-based piezoelectric energy harvesters. Applied Physics Letters, 2016, 109(25): 253902 (IF:3.411, JCR:Q1)
(4) Ting Tan, Nathan M. Cholewa, Scott W Case, Raffaella De Vita*. Micro-structural and biaxial creep properties of the swine uterosacral–cardinal ligament complex. Annals of Biomedical Engineering, 2016, 44: 3225 (IF:3.221, JCR:Q1)
(5) Ting Tan, Frances Davis, Jason Massengill, Daniel Gruber, John Robertson and Raffaella De Vita*, Histo-mechanical properties of swine uterosacral and cardinal ligaments. Journal of the Mechanical Behavior of Biomedical Materials, 2015, 42: 129-137 (IF:3.110, JCR:Q2)
(6) Ting Tan, Zhimiao Yan*. Electromechanical decoupled model for cantilever-beam piezoelectric energy harvesters with inductive-resistive circuits and its application in galloping mode. Smart Materials and Structures, 2017, 26: 035062 (IF:2.909, JCR:Q1)
(7) Ting Tan, Zhimiao Yan*, Hong Lei, Optimization and performance comparison for galloping-based piezoelectric energy harvesters with alternating-current and direct-current interface circuits, Smart Materials and Structures, 2017, 26: 075007 (IF:2.909, JCR:Q1)
(8) Ting Tan, Zhimiao Yan*, Hong Lei, Weipeng Sun, Geometric nonlinear distributed parameter model for cantilever-beam piezoelectric energy harvesters and structural dimension analysis for galloping mode, Journal of Intelligent Material Systems and Structures, 2017, 28(20): 3066-3078 (IF:2.255, JCR:Q2)
(9) Ting Tan, Raffaella De Vita*, A structural constitutive model for smooth muscle contraction in biological tissues. International Journal of Non-Linear Mechanics, 2015, 75: 46-53 (IF:2.074, JCR:Q2)
(10) Ting Tan, Zhimiao Yan*, Optimization study on inductive-resistive circuit for broadband piezoelectric energy harvesters, AIP advances, 2017, 7: 035318 (IF:1.568, JCR:Q3)
(11) Adwoa Baah-Dwomoh, Jeffrey McGuire, Ting Tan, Raffaella De Vita*, Mechanical properties of female reproductive organs and supporting connective tissues: a review of the current state of knowledge, Applied Mechanics Reviews, 2016, 68: 060801 (IF:7.921, JCR:Q1)
(12) Zhimiao Yan*, Hong Lei, Ting Tan, Weipeng Sun, Wenhu Huang, Nonlinear analysis for dual-frequency concurrent energy harvesting, Mechanical Systems and Signal Processing, 2018,104:514-535 (IF: 4.116, JCR:Q1)
(13) Weipeng Sun, Zhimiao Yan*, Ting Tan, Daoli Zhao and Xingqi Luo, Nonlinear characterization of the rotor-bearing system with oil-film and unbalance forces considering the oil-temperature effect. Nonlinear Dynamics, DOI: 10.1007/s11071-018-4113-5 (IF: 3.464, JCR:Q1)
(14) Zhimiao Yan*, Weipeng Sun, Ting Tan and Wenhu Huang, Nonlinear analysis of galloping piezoelectric energy harvesters with inductive-resistive circuits for boundaries of analytical solutions, Communications in Nonlinear Science and Numerical Simulation, 2018, 62: 90-116 (IF: 2.784, JCR:Q1)
(15) Zhimiao Yan*, Haithem E. Taha, Ting Tan, Nonlinear characteristics of an autoparametric vibration system, Journal of Sound and Vibration, 2017, 390(3): 1-22 (IF:2.593, JCR:Q1)
(16) Zhimiao Yan, Zhitao Yan*, Zhengliang Li, Ting Tan, Nonlinear galloping of internally resonant iced transmission lines considering eccentricity, Journal of Sound and Vibration, 2012, 331: 3599-3616 (IF:2.593, JCR:Q1)
Conference Papers:
Invited Talk
(1) Ting Tan, Zhimiao Yan, Wenhu Huang. Theoretical and Experimental Study on Piezoelectric Energy Harvesting for Vibration Control and Sensor Powering. European Advanced Materials Congress, Stockholm, Sweden, 2018.08.20-08.23
(2) Ting Tan, Zhimiao Yan, Wenhu Huang. Optimal design for galloping piezoelectric energy harvesters, Collaborative Conference on Materials Research (CCMR) 2017 meeting, Jeju island, South Korea, 2017.06.26-06.30
(3) Ting Tan and Raffaella De Vita, A Structural Constitutive Model for Smooth Muscle Contraction: Application to Arteries, World Congress of Biomechanics, Dublin, Ireland, 2018.07.08-07.12
Oral Presentation
(1) Ting Tan, zhimiao Yan, Lingzhi Wang, Wenhu Huang. Performance of tapered piezoelectric energy harvesting from galloping, Advanced Materials World Congress 2018, Singapore, 2018.2.5-2.8
(2) Ting Tan, Zhimiao Yan, Weipeng Sun, Wenhu Huang. Performance comparative study on piezoelectric energy harvesters under base and galloping excitations through equivalent power, 17th Asian Pacific Vibration Conference, Nanjing, China, 2017.11.13-11.15
(3) Ting Tan, Zhimiao Yan, Wenhu Huang. Dual-functional design for a piezoelectric autoparametric absorber, 2017年全国压电和声波理论及器件应用研讨会,中国,成都,2017年10月27-30日
(4) Ting Tan, Zhimiao Yan, Wenhu Huang. Electromechanical decoupled model for piezoelectric energy harvesters, 中国力学大会 2017,中国,北京,2017年8月13-16日
(5) Ting Tan, Zhimiao Yan, Wenhu Huang. Optimal design for galloping piezoelectric energy harvesters based on analytical solution, 第十六届全国非线性振动暨第十三届全国非线性动力学和运动稳定性学术会议,中国,杭州,2017年5月25-27日
(6) Ting Tan, Zhimiao Yan, Yushu Chen, Electromechanical modeling and analysis for cantilever-beam piezoelectric energy harvesters, 第十届全国动力学与控制学术会议,中国,成都,2016年5月6-8日
(7) Ting Tan, Nathan Cholewa, Scott Case, Raffaella De Vita*. Micro-structural and biaxial creep properties of the swine uterosacral-cardinal ligament complex. Society of Engineering Science 52nd Annual Technical Meeting, 2015, College Station, U.S.A., 2015.10.26-10.28
(8) Ting Tan, Frances Davis, Suzanne Nicewonder, Raffaella De Vita. Elastic properties of uterosacral and cardinal ligaments from uniaxial tensile tests. 91st Annual Meeting Virginia Academy of Science, 2013, Blacksburg, U.S.A., 2013.05.22-05.24
(9) Winston Becker, Ting Tan, and Raffaella De Vita. Biaxial mechanical properties of utero-sacral and cardinal ligaments, 11th World Congress on Computational Mechanics (WCCM XI), 5th European Conference on Computational Mechanics (ECCM V), 6th European Conference on Computational Fluid Dynamics (ECFD VI), 2014, Barcelona, Spain, 2014.07.20-07.25
(10) Winston Becker, Ting Tan, and Raffaella De Vita. Biaxial viscoelasticity of uterosacral and cardinal ligaments, 7th World Congress of Biomechanics, 2014, Boston, U.S.A., 2014.07.06-07.11
(11) Frances Davis, Ting Tan, Suzanne Nicewonder, Raffaella De Vita. Tensile properties of the swine cardinal ligament, ASME Proceedings, Reproductive Tissue Mechanics, 2013, Paper No. SBC2013-14294, pp. V01BT52A002, doi:10.1115/SBC2013-14294.
Poster Presentation
(1) Ting Tan, Nathan Cholewa, Scott Case, Raffaella De Vita. Creep properties of swine uterosacral and cardinal ligaments, Biomedical Engineering Society (BMES) Annual Meeting, 2015, Tampa, U.S.A, 2015.10.07-10.10
(2) Ting Tan, Raffaella De Vita. Biaxial creep of swine cardinal and uterosacral ligaments. Summer Biomechanics, Bioengineering and Biotransport Conference (SB3C), 2015, Snowbird, U.S.A., 2015.06.17-06.20
(3) Ting Tan, Raffaella De Vita. A structural constitutive model for the active and passive behavior of biological tissues. Summer Biomechanics, Bioengineering and Biotransport Conference (SB3C), 2015, Snowbird, U.S.A., 2015.06.17-06.20
(4) Ting Tan, Raffaella De Vita. Structural constitutive model for smooth muscle contraction. Biomedical Engineering Society (BMES) Annual Meeting, 2014, San Antonio, U.S.A, 2014.10.22-10.25
(5) Ting Tan, Frances Davis, Suzanne Nicewonder, Jason Massengill, Daniel Gruber, and Raffaella De Vita. Location-dependent tensile properties of the swine uterosacral-cardinal ligament complex. Biomedical Engineering Society (BMES) Annual Meeting, 2013, Seattle, U.S.A., 2013.09.25-09.28
(6) Adwoa Baah-Dwomoh, Ting Tan, Raffaella De Vita, Nonlinear viscoelasticity of ligaments of the pelvic floor, Biomedical Engineering Society (BMES) Annual Meeting, 2015, Tampa, U.S.A, 2015.10.7-10.10