自适应结构与智能系统实验室

[37] 白先旭*, 邓学才, 沈升, 磁流变减振器的可控特性标定方法研究, 第17届全国非线性振动暨14届全国非线性动力学和运动稳定性学术会议, 2019年5月10日-12日, 江苏南京

[36] 白先旭*, 杨森, 磁流变半主动落锤冲击缓冲系统的“软着陆”控制实验与分析, 第17届全国非线性振动暨14届全国非线性动力学和运动稳定性学术会议, 2019年5月10日-12日, 江苏南京(被评为:优秀论文奖)

[35] 汤超, 白先旭*, 徐时旭, 汽车磁流变半主动横向稳定杆的参数分析与控制仿真, 第17届全国非线性振动暨14届全国非线性动力学和运动稳定性学术会议, 2019年5月10日-12日, 江苏南京

[34] Bai X X* and Yang S, Minimizing deceleration for drop-induced shock systems using magnetorheological energy absorber. Active and Passive Smart Structures and Integrated Systems XII 2019 Mar 21 (Vol. 10967, p. 1096716). International Society for Optics and Photonics (ISTP, doi: 10.1117/12.2513364)

[33] Si Z Y, Bai X X*, Qian L J, An enhanced Duhem model of magnetostrictive material-based actuators. Behavior and Mechanics of Multifunctional Materials XIII 2019 Mar 29 (Vol. 10968, p. 1096818). International Society for Optics and Photonics (ISTP, doi: 10.1117/12.2513583)

[32] Zhu A D, Zhong W M, Bai X X*, Design and analysis of a shock absorber with both tunable inertance and damping. Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2019 Mar 27 (Vol. 10970, p. 109701U). International Society for Optics and Photonics. (Won Travel Award from Hefei University of Technology) (ISTP, doi: 10.1117/12.2513366)

[31] Zhong W M, Bai X X*, Zhu A D, Shock absorber with adaptive inertance and damping featuring magnetorheological effect, 1st International Conference on Vibration and Energy Harvesting Application, Shenzhen, China, November 2-4, 2018

[30] 陈健, 白先旭*, 钱立军, 流动模式下磁流变液测试系统原理设计, 第14届全国流变学学术会议, 2018年10月20日-23日, 湖南湘潭(被评为:青年优秀论文奖)

[29] Bai X X* and Chen P, Hysteresis analysis of magnetorheological fluids based on force-displacement characteristics, 29st International Conference on Adaptive Structures and Technologies (ICAST 2018), Seoul, Korea, September 30-October 4, 2018

[28] 钟伟民, 白先旭*, 祝安定, 一种磁流变惯容器的原理设计, 中国汽车工程学会越野车技术分会学术年会, 2018年8月2日-4日, 内蒙古包头

[27] Bai X X*, Cai F L, Chen P. RC operator-based model for MR dampers, Proceedings of the 5th International Conference on Dynamics, Vibration and Control, Shijiazhuang, China, July 28-30, 2018

[26] Bai X X*, Li Y, Liao Z C, Chen J. Principle of a test bench for simulation of vehicular braking of 1/4 vehicle. In Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2018 Mar 27 (Vol. 10598, p. 1059842). International Society for Optics and Photonics. (ISTP, doi: 10.1117/12.2297010)

[25] Qian L J, Chen P, Cai F L, Bai X X*. “Shape function+ memory mechanism”: based hysteresis modeling of magnetorheological fluid actuators. Behavior and Mechanics of Multifunctional Materials and Composites XII 2018 Mar 22 (Vol. 10596, p. 105961H). International Society for Optics and Photonics. (ISTP, doi: 10.1117/12.2294504)

[24] Zhu Z N, Bai X X*, Chen P, Cai F L, Qian L J. Control of a 1/4 MR semi-active suspension system using a RC hysteresis model for MR damper. Active and Passive Smart Structures and Integrated Systems XII 2018 Mar 15 (Vol. 10595, p. 1059537). International Society for Optics and Photonics. (ISTP, doi: 10.1117/12.2297172)

[23] Bai X X*, Shen S, Cai FL, Deng XC, Xu SX. Mechanical responses of a magnetorheological damper. InActive and Passive Smart Structures and Integrated Systems XII 2018 Mar 15 (Vol. 10595, p. 1059507). International Society for Optics and Photonics. (ISTP, doi: 10.1117/12.2294502)

[22] 白先旭*, 邹祺, 馈能型磁流变阻尼器的设计与实验, 第二届中国汽车工程学会悬架技术分会学术年会, 2017年9月7日-9日, 广东广州(被评为:优秀论文一等奖)

[21] X. X. Bai*, S. X. Xu, and S. Shen, Impact of magnetorheological semi-active stabilizer bar on vehicle rollover, VIII ECCOMAS Thematic Conference on Smart Structures and Materials, Madrid, Spain, pp. 129-137, 2017

[20] X. X. Bai*, Q. Zou, and L. J. Qian, Design and test of a power-generated magnetorheological damper, Proceedings of SPIE Conference on Smart Structures/NDE, Portland, USA, Vol. 101641, 101641J (8pp), 2017 (ISTP, doi: 10.1117/12.2257555)

[19] X. X. Bai*, S. X. Xu, and S. Shen, Magnetorheological stabilizer bar for ground vehicles, Proceedings of SPIE Conference on Smart Structures/NDE, Portland, USA, Vol. 10166, 10166G (12pp), 2017 (ISTP, doi: 10.1117/12.2258355)

[18] X. X. Bai*, P. Jiang, H. Pan, and L. J. Qian, Analysis and testing of an integrated semi-active seat suspension for both longitudinal and vertical vibration control, Proceedings of SPIE Conference on Smart Structures/NDE, Las Vegas, USA, Vol. 9799, 979921 (9pp), 2016 (ISTP, doi: 10.1117/12.2217950)

[17] L. J. Qian, B. Liu, P. Chen, and X. X. Bai*, An inverse model for magnetorheological dampers based on a restructured phenomenological model, Proceedings of SPIE Conference on Smart Structures/NDE, Las Vegas, USA, Vol. 9799, 97993H (10pp), 2016 (ISTP, doi: 10.1117/12.2217948)

[16] W. Cheng, S. X. Xu, L. J. Qian, and X. X. Bai*, 4-DOF biodynamic lumped-parameter models for a seated occupant, Proceedings of SPIE Conference on Smart Structures/NDE, Las Vegas, USA, Vol. 9797, 97970Z (8pp), (ISTP, doi: 10.1117/12.2218399)

[15] 陈朋, 白先旭*, 钱立军, 激励速度对磁流变液挤压力学性能的影响, 第十三届全国流变学学术会议, 2016年10月23日-26日, 陕西西安

[14] X. X. Bai*, P. Jiang, and L. J. Qian, Design of an integrated semi-active seat suspension for both longitudinal and vertical vibration attenuation, Proceedings of 26th International Conference on Adaptive Structures and Technologies (ICAST2015-011(12pp)), Kobe, Japan, October 14-16, 2015

[13] L. J. Qian, F. L. Xin, and X. X. Bai*, Control and analysis of a magnetorheological elastomer dynamic vibration absorber for powertrain mount systems of automobile, Proceedings of 26th International Conference on Adaptive Structures and Technologies (ICAST2015-010(12pp)), Kobe, Japan, October 14-16, 2015

[12] X. X. Bai*, P. Chen, L. J. Qian, and P. Kan, Design and analysis of a magnetorheological fluid mount featuring uni-directional squeeze mode, ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS15), Colorado Springs, USA, Vol. 2, Paper No. SMASIS2015-8813, V002T04A001 (8 pp) (Recommended Best Paper Quality) (ISTP, doi:10.1115/SMASIS2015-8813)

[11] X. X. Bai*, F. L. Xin, L. J. Qian, and P. Kan, Design and control of a magnetorheological elastomer dynamic vibration absorber for powertrain mount systems of automobiles, ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS15), Colorado Springs, USA, Vol. 1, Paper No. SMASIS2015-8893, V001T03A014 (7 pp) (ISTP, doi: 10.1115/SMASIS2015-8893)

[10] X. X. Bai*, P. Chen, L. J. Qian, and A. D. Zhu, Hysteresis modeling and experimental validation of a magnetorheological damper, Proceedings of SPIE Conference on Smart Structures/NDE, San Diego, USA, Vol. 9431, 943132 (12pp), 2015 (ISTP, doi: 10.1117/12.2084119)

[9] X. X. Bai* and D. H. Wang, Shock and vibration control systems using a self-sensing magnetorheological damper, Proceedings of SPIE Conference on Smart Structures/NDE, San Diego, USA, Vol. 9057, 905734 (11pp), 2014 (ISTP, doi: 10.1117/12.2045259)

[8] X. X. Bai* and N. M. Wereley, Magnetorheological impact seat suspensions for ground vehicle crash mitigation, Proceedings of SPIE Conference on Smart Structures/NDE, San Diego, USA, Vol. 9057, 9057R (12pp), 2014 (ISTP, doi: 10.1117/12.2045261)

[7] X. X. Bai*, W. Hu, and N. M. Wereley, Analysis and testing of an inner bypass magnetorheological damper, Proceedings of SPIE Conference on Smart Structures/NDE, San Diego, USA, Vol. 8688, 86880Y (18pp), 2013 (Selected as Best Student Paper Competition Finalist) (ISTP, doi: 10.1117/12.2010001)

[6] X. X. Bai*, N. M. Wereley, W. Hu, and D. H. Wang, A bidirectional-controllable magnetorheological energy absorber for shock and vibration isolation systems, ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS12), Georgia, USA, Vol. 2, Paper No. SMASIS2012-8250, pp. 485-495, 2012 (ISTP, WOS: 000324504300061)

[5] X. X. Bai, N. M. Wereley*, Y. T. Choi, and D. H. Wang, A bi-annular-gap magnetorheological energy absorber for shock and vibration mitigation, Proceedings of SPIE Conference on Smart Structures/NDE, San Diego, USA, Vol. 8341, 843123 (21pp), 2012 (ISTP, doi: 10.1117/12.917479)

[4] 白先旭, 王代华*, 付航, 一种具有圆环形-圆盘形液流通道的磁流变阻尼器, 第六届全国电磁流变液及其应用学术会议,2011年11月16日-18日, 浙江宁波
[3] D. H. Wang* and X. X. Bai, Principle of a self-powered self-sensing magnetorheological damper, 21st International Conference on Adaptive Structures and Technologies (ICAST 2010), Philadelphia, USA, October 4-6, 2010

[2] D. H. Wang* and X. X. Bai, Pareto optimization based tradeoff between the controllable damping force and the relative displacement sensing of a self-sensing magnetorheological damper, ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems (SMASIS10), Philadelphia, USA, Vol. 2, Paper No. SMASIS2010-3716, pp. 355-369, 2010 (WOS:000296288700007, Selected as Best Student Paper)

[1] D. H. Wang*, T. Wang, X. X. Bai, G. Yuan, and W. H. Liao, A self-sensing magnetorheological shock absorber for motorcycles, Proceedings of 19th International Conference on Adaptive Structures and Technologies (ICAST 2008), Ascona, Switzerland, October 6-9, 2008


"*" denotes Corresponding Author.