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[104]Miao Yu, Dongbin Xia, Wei Li, Gaowei Han, Xiumei Du, Jie Fu. Research on finite frequency robust H∞ control of all-terrain vehicle magnetorheological suspension system[J]. Mechanical Systems and Signal Processing, 234(2025): 112803.(JCR: Q1)

 

[103]Zhiyang Yin , Longyu Bai, Songze Li, Yaping Li, Jie Fu , Miao Yu, Song Qi. Thermally and magnetically tunable origami structures for electromagnetic wave absorption[J]. Composites Science and Technology, 265(2025): 111154.(JCR: Q1)

 

[102]Miao Yu, Shixu Li, Wenkang Zou, Jie Fu, Song Qi, Haitao Li. Mechanical characteristics and multiscale modeling for colloidal magnetorheological fluids at high shear rates[J]. Physics of Fluids, 2025, 37(2025): 023128. (JCR: Q1)

 

[101]Jie Fu, Can Zhong, Wang Li, Zhen Huang, Zhenyu Dai, Junjie Lai, Miao Yu. Model reference adaptive time-varying delay compensator design for magnetorheological elastomer-based vibration isolation system[J]. Nonlinear Dynamics, 2025, 1-13.(JCR: Q1)

 

[100]Zhiyang Yin, Wenchun Wu, Yaping Li, Longyu Bai, Yuyan Li, Song Qi, Jie Fu, Miao Yu, Tunable electromagnetic-wave absorption properties of MRP/honeycomb structure composites[J]. Journal of Alloys and Compounds, 1009(2024): 176714. (JCR: Q1)

 

[99]Wang Li, Peidong Li, Jie Fu and Miao Yu. A control-oriented magnetorheological elastomer isolator for high-tech facilities: development and experimental verification[J]. Smart Materials and Structures, 2024, 33(2024): 125038. (JCR: Q1)

 

[98]Wang Li, Zheng Huang, Can Zhong, Jie Fu and Miao Yu. Dynamic performance evaluation of a magnetorheological damper-based sting support in wind tunnel tests[J]. Modern Physics Letters B, (2024) 2442009(1-13).(JCR: Q2)

 

[97]Jie Fu, Zhen Huang, Wang Li, Wei Wang, Can Zhong, Song Qi, and Miao Yu.A bidirectional-controllable magnetorheological elastomer-based quasi-zero-stiffness isolator[J]. Smart Materials and Structures, 2024, 33(2024): 085009. (JCR: Q1)

 

[96]Pufan Zhu, Mi Zhu, Zhiyuan Zheng, Luhang Jiang, Jie Fu, Miao Yu. Structural design and multi-objective optimization of an MR isolator based on flow valve-cone rubber structure[J]. Modern Physics Letters B, (2024) 2442010(1-15).(JCR: Q2)

 

[95]Jie Fu, Fan Gao, Can Zhong, Wang Li, Wenkang Zou. Magnetic-Control Variable Stiffness and Damping Tail Support for a Wind-Tunnel Aircraft Model[J]. AIAA Journal, 2024, 62(4):1318-1329.(JCR: Q1).

 

[94]Shixu Li, Song Qi, Jun Liu, Jie Fu, Yaping Li, Longyu Bai, Wenchun Wu, Miao Yu. Dimensional analysis for sedimentation behavior of magnetorheological fluids[J]. Physics of Fluids, 2024, 36: 033347. (JCR: Q1)

 

[93]Wei Li ,Huijun Liang, Dongbin Xia, Jie Fu, and MiaoYu. Explicit model predictive control of magnetorheological suspension for all-terrain vehicles with road preview [J]. Smart Materials and Structures, 2024, 33(3): 035037.（JCR: Q1)

 

[92]Shixu Li, Song Qi, Jun Liu, Jie Fu, Yaping Li, Longyu Bai, Miao Yu. Cooperativity of Nanoscale Magnetic Zeolitic Imidazolate  Framework in Magnetorheological Fluid[J]. Journal of Industrial and Engineering Chemistry, 2024, 132, 238-246.（JCR: Q1)

 

[91] Huijun Liang, Jie Fu, Wei Li, Dongbin Xia, Lei Luo and Miao Yu. Structural design and multi-objective optimization of a novel asymmetric magnetorheological damper[J]. Smart Materials and Structures, 2024 33(3): 035041. ( JCR: Q1)

 

[90] Miao Yu, Ruyi Gan, Jie Fu, Song Qi, Jinyu Han and Haitao Li. High-velocity micromorphological observation and simulation of magnetorheological gel using programmable magneto-controlled microfluidics system and micro-tube dynamic models[J]. Smart Materials and Structures,33(2024): 035001.(JCR: Q1)

 

[89] Yuanpeng Xie, Jie Fu, Mi Zhu, Song Qi, Ruixue Tian and Miao Yu, A magnetorheological vibration absorber with bidirectional tunability for pipelines[J]. Smart Materials and Structures,32 (2023): 125007. (JCR区：Q1)

 

[88] Huijun Liang, Jie Fu, Wei Li, Yongsheng Wang, Lei Luo, Song Qi and Miao Yu. Theoretical switch model of novel asymmetric magnetorheological damper for shock and vibration application[J]. Smart Materials and Structures, 2024,33(1): 015008.(JCR区：Q1)

 

[87] Yaping Li , Song Qi , Jie Fu , Ruyi Gan , Shixu Li , Haojie Yao , Miao Yu. Magnetorheological shear thickening gel reinforced iron-nickel foam composites with tunable energy absorption performance[J].  Composites: Part A 174 (2023) 107718. (JCR区：Q1)

 

[86] Wang Li, Wenkang Zou, Jie Fu , Fan Gao, Miao Yu . Development of an anti-vibration aircraft model support system with magnetorheological annular squeeze dampers for wind tunnel[J]. Mechanical Systems and Signal Processing 202 (2023) 110663. (JCR区：Q1)

 

[85] Yao Haojie, Yu Miao, Fu Jie, Zhu Mi, Li Yaping, Li Shixu, Gan Ruyi, Zhou Hengqing and Qi Song. Shape memory polymers enable versatile magneto-active structure with 4D printability, variable stiffness, shape-morphing and effective grasping[J]. Smart Materials and Structures, 2023, 32(9): 095005. (JCR区：Q1)

 

[84] Liang Huijun, Li Jie, Wang Yongsheng, Liu Mingkun, Fu Jie, Luo Lei, Yu Miao. Multi-Physics Simulation and Experimental Verification of Magnetorheological Damper with Additional Stiffness [J]. Actuators, 2023,12(6):251.(JCR区:Q2)

 

[83] Xia Dongbin, Fu Jie, Li Wei, Han Gaowei, Du Xiumei, Luo Lei, Yu Miao.Incremental proportion integration differentiation control of all-terrain vehicle magnetorheological suspension system under low-frequency disturbances [J]. Smart Materials and Structures, 2023, 32(7) : 075019.(JCR区：Q1)

 

[82] Song Qi, Haojie Yao, Jie Fu, Yuanpeng Xie, Yaping Li, Ruixue Tian, Miao Yu, Hengyu Guo, Magneto-active soft matter with reprogrammable shape-morphing and self-sensing capabilities, Composites Science and Technology 230 (2022). (JCR区：Q1)

 

[81] Jie Fu, Jing Liu, Junjie Lai, Can zhong, Zhenyu Dai, Miao Yu, Robustness Analysis of Magnetorheological Elastomer-based Vibration Isolation System with Optimal Fuzzy controller, Smart Materials and Structures, 2023, 32(3): 035018.(JCR区：Q1)

 

[80] Xiumei Du, Gaowei Han, Miao Yu, Youxiang Peng, Xiaoying Xu，Jie Fu. Fault detection and fault tolerant control of vehicle semi-active suspension system with magnetorheological damper. Smart Mater. Struct. 30 (2021). (JCR区：Q1)

 

[79] Ruyi Gan, Shixu Li, Yaping Li, Song Qi, Miao Yu. A tunable magnetorheological electromagnetic absorber based on multiscale design and topology optimization. Composites Science and Technology 231 (2023) 109795. (JCR区：Q1)

 

[78] Shixu Li, Miao Yu, Jun Liu, Jie Fu, Ruyi Gan, Yaping Li, Haojie Yao, and Song Qi. Attenuation of magneto-induced yield stress by magnetic carrier liquid in magnetorheological fluids. Appl. Phys. Lett. 121, 162901 (2022).(JCR区：Q2)

 

[77] Ruyi Gan, Miao Yu, Shixu Li, Yaping Li, Biao Fang, Song Qi. A magnetic control reconfigurable coded electromagnetic absorbing metamaterial. Composites Science and Technology (2021).(JCR区：Q1)

 

[76] Li W, Qi S, Zhu M, et al. Improving transient magnetorheological response of magnetorheological elastomer by incorporating CIP@ FeNi particles[J]. Smart Materials and Structures, 2021, 30(2): 024002.(JCR区：Q1)

 

[75] Zhu M , Fu J , Li W , et al. Design and co-optimization of a laminated isolation bearing based on magnetorheological elastomer - ScienceDirect[J]. Mechanical Systems and Signal Processing, 159(2021)107843.(JCR区：Q1)

 

[74] Ruyi Gan, Song Qi, Yi Zhao, Jie Fu, Shixu Li, Yaping Li and Miao Yu. Magneto-induced Mullins effect of anisotropic MREs under compression mode Smart Mater. Struct. 30 (2021) 024003 (13pp). (JCR区：Q1)

 

[73] Xie Yuanpeng, Qi Song, Fu Jie, Tian Ruixue, Liu, Fenglin, Yu Miao. A Pre-magnetized NdFeB-Particle Reinforced Magnetorheological Elastomer. Smart Materials and Structures, 2021, 30(1): 014002.（JCR区：Q1）

 

[72] Li Shixu, Zhou Jing, Liu Jun, Fu Jie, Yu Miao, Qi Song. Enhancing Effect of 

Fe3O4/Nanolignocelluloses in Magnetorheological Fluid[J]. Langmuir, 2021. (JCR区：Q2)

 

[71] Jie Fu, Junjie Lai, Zening Yang, Junfeng Bai, Miao Yu. Fuzzy-neural network control for a Magnetorheological elastomer vibration isolation system. Smart Materials and Structures, 2020, 29(7): 074001.（JCR区：Q1）

 

[70] Qi S, Guo H, Fu J, et al. 3D printed shape-programmable magneto-active soft matter for biomimetic applications[J]. Composites Science and Technology, 2020: 107973.(JCR区：Q1)

 

[69] Fu, J., Dai, Z., Yang, Z., Lai, J., & Yu, M. (2020). Time delay analysis and constant time-delay compensation control for MRE vibration control system with multiple-frequency excitation. Smart Materials and Structures, 29(1), 014001. (JCR分区：Q1)

 

[68] Xie, Y., Yu, M., Qu, H., & Fu, J. (2019). Carbon black reinforced magnetorheological gel enabled high-performance magneto-resistor for motor soft start-up. Smart Materials and Structures, 28(12), 125019. (JCR分区：Q1)

 

[67] Li, Y., Qi, S., Fu, J., Gan, R., & Yu, M. (2019). Fabrication and mechanical behaviors of iron–nickel foam reinforced magnetorheological elastomer. Smart Materials and Structures, 28(11), 115039. (JCR分区：Q1)

 

[66] Qi, S., Fu, J., Xie, Y., Li, Y., Gan, R., & Yu, M. (2019). Versatile magnetorheological plastomer with 3D printability, switchable mechanics, shape memory, and self-healing capacity. Composites Science and Technology, 183, 107817. (JCR分区：Q1)
 

[65] Zhu, M., Qi, S., Xie, Y., Fu, J., & Yu, M. (2019). Transient responses of magnetorheological elastomer and isolator under shear mode. Smart Materials and Structures, 28(4), 044002. (JCR分区：Q1)
 

[64] Du, X. M., Yu, M., Fu, J., Peng, Y. X., Shi, H. F., & Zhang, H. (2019). H∞ control for a semi-active scissors linkage seat suspension with magnetorheological damper. Journal of Intelligent Material Systems and Structures, 30(5), 708-721. (JCR分区：Q2)

 

[63] Fu, J., Bai, J., Lai, J., Li, P., Yu, M., & Lam, H. K. (2019). Adaptive fuzzy control of a magnetorheological elastomer vibration isolation system with time-varying sinusoidal excitations. Journal of Sound and Vibration, 456, 386-406. (JCR分区：Q1)

 

[62] Wang, L. R., Yu, M., Yang, P. A., Qi, S., & Fu, J. (2019). Synthesis of absorbing coating based on magnetorheological gel with controllable electromagnetic wave absorption properties. Smart Materials and Structures, 28(4), 044001. (JCR分区：Q1)

 

[61] Wang, L., Yu, M., Fu, J., & Qi, S. (2018). Investigation on the effects of doped dendritic Co particles on rheological property of magnetorheological gel. Smart Materials and Structures, 27(10), 105041. (JCR分区：Q1)

 

[60] Wen, M., Chambers, J., Sherman, S. G., & Wereley, N. M. (2019). Monitoring sedimentation of magnetorheological fluids using a vertical axis monitoring system with a low aspect ratio sensor coil. Smart Materials and Structures, 28(2), 025039. (JCR分区：Q1)
 

[59] Qi, S., Yu, M., Fu, J., Zhu, M., Xie, Y., & Li, W. (2018). An EPDM/MVQ polymer blend based magnetorheological elastomer with good thermostability and mechanical performance. Soft matter, 14(42), 8521-8528. (JCR分区：Q2)

 

[58] Fu, J., Li, P., Liao, G., Lai, J., & Yu, M. (2018). Active/semi-active hybrid isolation system with fuzzy switching controller. Journal of Intelligent Material Systems and Structures, 29(1), 101-115. (JCR分区：Q2)

 

[57] Fu, J., Lai, J., Liao, G., Yu, M., & Bai, J. (2018). Genetic algorithm based nonlinear self-tuning fuzzy control for time-varying sinusoidal vibration of a magnetorheological elastomer vibration isolation system. Smart Materials and Structures, 27(8), 085010. (JCR分区：Q1)
 

[56] Zhu, M., Yu, M., Qi, S., & Fu, J. (2018). Investigations on response time of magnetorheological elastomer under compression mode. Smart Materials and Structures, 27(5), 055017. (JCR分区：Q1)
 

[55] Qi, S., Guo, H., Chen, J., Fu, J., Hu, C., Yu, M., & Wang, Z. L. (2018). Magnetorheological elastomers enabled high-sensitive self-powered tribo-sensor for magnetic field detection. Nanoscale, 10(10), 4745-4752. (JCR分区：Q1)
 

[54] Qi, S., Yu, M., Fu, J., & Zhu, M. (2018). Stress relaxation behavior of magnetorheological elastomer: Experimental and modeling study. Journal of Intelligent Material Systems and Structures, 29(2), 205-213. (JCR分区：Q2)
 

[53] Yang, P., Yu, M., Fu, J., Liu, S., Qi, S., & Zhu, M. (2017). The damping behavior of magnetorheological gel based on polyurethane matrix. Polymer Composites, 38(7), 1248-1258. (JCR分区：Q2)

[52] Yu, M., Wang, L., Yang, P., & Fu, J. (2017). Preparation and high-performance microwave absorption of hierarchical dendrite-like Co superstructures self-assembly of nanoflakes. Nanotechnology, 28(48), 485703.  (JCR分区：Q3)

[51] Li, Y., Yu, M., Yang, P., & Fu, J. (2017). Enhanced microwave absorption property of Fe nanoparticles encapsulated within reduced graphene oxide with different thicknesses. Industrial & Engineering Chemistry Research, 56(31), 8872-8879. (JCR分区：Q1)

[50] Qu, H., Yu, M., Fu, J., Yang, P., & Liu, Y. (2017). Enhanced field-dependent conductivity of magnetorheological gels with low-doped carbon nanotubes. Smart Materials and Structures, 26(10), 105026. (JCR分区：Q1)

[49] Fu, J., Li, P., Liao, G., Lai, J., & Yu, M. (2016). Development and dynamic characterization of a mixed mode magnetorheological elastomer isolator. IEEE Transactions on Magnetics, 53(1), 1-4. (JCR分区：Q3)

[48] Yu, M., Qi, S., Fu, J., Zhu, M., & Chen, D. (2017). Understanding the reinforcing behaviors of polyaniline-modified carbonyl iron particles in magnetorheological elastomer based on polyurethane/epoxy resin IPNs matrix. Composites Science and Technology, 139, 36-46. (JCR分区：Q1)

[47] Zhao, L., Yu, M., Fu, J., Zhu, M., & Li, B. (2017). A miniature MRE isolator for lateral vibration suppression of bridge monitoring equipment: design and verification. Smart Materials and Structures, 26(4), 047001. (JCR分区：Q1)

[46] Fu, J., Li, P., Choi, S. B., Liao, G., Wang, Y., & Yu, M. (2017). A new self-tuning fuzzy controller for vibration of a flexible structure subjected to multi-frequency excitations. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering, 231(8), 614-625. (JCR分区：Q4)

[45] Fu, J., Liao, G., Yu, M., Li, P., & Lai, J. (2016). NARX neural network modeling and robustness analysis of magnetorheological elastomer isolator. Smart Materials and Structures, 25(12), 125019. (JCR分区：Q1)

[44] Chen, D., Yu, M., Zhu, M., Qi, S., & Fu, J. (2016). Carbonyl iron powder surface modification of magnetorheological elastomers for vibration absorbing application. Smart Materials and Structures, 25(11), 115005. (JCR分区：Q1)

[43] Yu, M., Zhao, L., Fu, J., & Zhu, M. (2016). Thermal effects on the laminated magnetorheological elastomer isolator. Smart Materials and Structures, 25(11), 115039. (JCR分区：Q1)

[42] Yu, M., Yang, P., Fu, J., Liu, S., & Qi, S. (2016). Study on the characteristics of magneto-sensitive electromagnetic wave-absorbing properties of magnetorheological elastomers. Smart Materials and Structures, 25(8), 085046. (JCR分区：Q1)

[41] Shi, H. F., Yu, M., Zhu, M., Fu, J., Choi, S. B., & Xing, Z. W. (2016). An investigation of the dynamic behaviors of an MRE isolator subjected to constant and alternating currents. Smart Materials and Structures, 25(7), 077002. (JCR分区：Q1)

[40] Yu, M., Yang, P., Fu, J., Liu, S., & Choi, S. B. (2016). A theoretical model for the field-dependent conductivity of magneto-rheological gels and experimental verification. Sensors and Actuators A: Physical, 245, 127-134. (JCR分区：Q2)

[39] Yang, P., Yu, M., & Fu, J. (2016). Ni-coated multi-walled carbon nanotubes enhanced the magnetorheological performance of magnetorheological gel. Journal of Nanoparticle Research, 18(3), 61. (JCR分区：Q3)

[38] Fu, J., Li, P., Wang, Y., Liao, G., & Yu, M. (2016). Model-free fuzzy control of a magnetorheological elastomer vibration isolation system: analysis and experimental evaluation. Smart Materials and Structures, 25(3), 035030. (JCR分区：Q1)

[37] Qi, S., Yu, M., Fu, J., Li, P. D., & Zhu, M. (2015). Creep and recovery behaviors of magnetorheological elastomer based on polyurethane/epoxy resin IPNs matrix. Smart Materials and Structures, 25(1), 015020. (JCR分区：Q1)

[36] Xing, Z., Yu, M., Sun, S., Fu, J., & Li, W. (2015). A hybrid magnetorheological elastomer-fluid (MRE-F) isolation mount: development and experimental validation. Smart materials and structures, 25(1), 015026. (JCR分区：Q1)

[35] Yu, M., Zhu, M., Fu, J., Yang, P. A., & Qi, S. (2015). A dimorphic magnetorheological elastomer incorporated with Fe nano-flakes modified carbonyl iron particles: preparation and characterization. Smart Materials and Structures, 24(11), 115021. (JCR分区：Q1)

[34] Yang, P., Yu, M., Fu, J., Liu, S., Qi, S., & Zhu, M. (2017). The damping behavior of magnetorheological gel based on polyurethane matrix. Polymer Composites, 38(7), 1248-1258. (JCR分区：Q2)

[33] Yu, M., Qi, S., Fu, J., & Zhu, M. (2015). A high-damping magnetorheological elastomer with bi-directional magnetic-control modulus for potential application in seismology. Applied Physics Letters, 107(11), 111901. (JCR分区：Q1)

[32] Yu, M., Choi, S. B., Wereley, N. M., Li, W., Koo, J. H., & Guan, X. (2015). Applications of magnetorheological technology to semiactive vibration control systems. Shock and Vibration, 2015. (JCR分区：Q3)

[31] Yu, M., Qi, S., Fu, J., Yang, P. A., & Zhu, M. (2015). Preparation and characterization of a novel magnetorheological elastomer based on polyurethane/epoxy resin IPNs matrix. Smart Materials and Structures, 24(4), 045009. (JCR分区：Q1)

[30] Yu, M., Xing, Z., Zheng, X., Fu, J., & Choi, S. B. (2014). Experimental Investigation on Mechanical Properties of Magnetorheological Elastomer with Circular Honeycomb Holes. Frontiers in Materials, 1. (JCR分区：Q2)

[29] Xing, Z. W., Yu, M., Fu, J., Wang, Y., & Zhao, L. J. (2015). A laminated magnetorheological elastomer bearing prototype for seismic mitigation of bridge superstructures. Journal of Intelligent Material Systems and Structures, 26(14), 1818-1825. (JCR分区：Q2)

[28] Yang, C. Y., Fu, J., Yu, M., Zheng, X., & Ju, B. X. (2015). A new magnetorheological elastomer isolator in shear–compression mixed mode. Journal of Intelligent Material Systems and Structures, 26(10), 1290-1300. (JCR分区：Q2)

[27] Yao, X. Y., Yu, M., & Fu, J. (2015). Magnetic-enhanced normal force of magnetorheological fluids. Smart Materials and Structures, 24(3), 035001. (JCR分区：Q1)

[26] Yu, M., Yang, P., Fu, J., & Liu, S. (2015). Flower-like carbonyl iron powder modified by nanoflakes: Preparation and microwave absorption properties. Applied Physics Letters, 106(16), 161904. (JCR分区：Q1)

[25] Yu, M., Peng, Y., Wang, S., Fu, J., & Choi, S. B. (2014). A new energy-harvesting device system for wireless sensors, adaptable to on-site monitoring of MR damper motion. Smart Materials and Structures, 23(7), 077002. (JCR分区：Q1)

[24] Li, M., Yu, M., Wang, H., & Zhang, Y. (2014). Selection Cooperation in Heterogeneous Cooperative Networks. Wireless personal communications, 75(4), 2089-2102. (JCR分区：Q4)

[23] Fu, J., Wang, Y., Li, P. D., & Yu, M. (2014). Research on hybrid isolation system for micro-nano-fabrication platform. Advances in Mechanical Engineering, 6, 243247. (JCR分区：Q4)

[22] Yu, M., Fu, J., Ju, B. X., Zheng, X., & Choi, S. B. (2013). Influence of x-ray radiation on the properties of magnetorheological elastomers. Smart Materials and Structures, 22(12), 125010. (JCR分区：Q1)

[21] Yu, M., Wang, S., Fu, J., & Peng, Y. (2013). Unsteady analysis for oscillatory flow of magnetorheological fluid dampers based on Bingham plastic and Herschel–Bulkley models. Journal of Intelligent Material Systems and Structures, 24(9), 1067-1078. (JCR分区：Q2)

[20] Ju, B., Yu, M., Fu, J., Zheng, X., & Liu, S. (2013). Magnetic field-dependent normal force of magnetorheological gel. Industrial & Engineering Chemistry Research, 52(33), 11583-11589. (JCR分区：Q1)

[19] Li, M., Yu, M., Zhang, Y., & Wang, H. (2013). A lightweight selection cooperation protocol with multiple available best relays. IEEE Communications Letters, 17(6), 1172-1175. (JCR分区：Q2)

[18] Yan, Y. X., Hui, L. X., Yu, M., Fu, J., & Dong, L. H. (2013). Dynamic response time of a metal foam magneto-rheological damper. Smart materials and structures, 22(2), 025026. (JCR分区：Q1)

[17] Ju, B. X., Yu, M., Fu, J., Yang, Q., Liu, X. Q., & Zheng, X. (2012). A novel porous magnetorheological elastomer: preparation and evaluation. Smart Materials and Structures, 21(3), 035001. (JCR分区：Q1)

[16] Yu, M., Ju, B., Fu, J., Liu, X., & Yang, Q. (2012). Influence of composition of carbonyl iron particles on dynamic mechanical properties of magnetorheological elastomers. Journal of Magnetism and Magnetic Materials, 324(13), 2147-2152. (JCR分区：Q2)

[15] Wang, S. Q., Yu, M., Fu, J., Choi, S. B., & Li, P. (2012). A novel energy harvesting device for self-monitoring wireless sensor node in fluid dampers. Smart Materials and Structures, 21(8), 085027. (JCR分区：Q1)

 

[14] Dong, X., Yu, M., & Guan, Z. (2011). Adaptive sliding mode fault-tolerant control for semi-active suspension using magnetorheological dampers. Journal of Intelligent Material Systems and Structures, 22(15), 1653-1660. (JCR分区：Q2)

[13] Dong, X. M., Yu, M., & Liao, C. R. (2011). Fuzzy sliding mode control based on hybrid Taguchi genetic algorithm for magneto-rheological suspension system. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 225(6), 735-746. (JCR分区：Q3)

[12] Jie, F., Miao, Y., & Tie-Dong, M. (2011). Modified impulsive synchronization of fractional order hyperchaotic systems. Chinese Physics B, 20(12), 120508. (JCR分区：Q3)

[11] Yu, M., & Wang, S. (2010). The composite MRE embedded with a copper coil. Smart Materials and structures, 19(6), 065023. (JCR分区：Q1)

[10] Yu, M., Choi, S. B., Dong, X. M., & Liao, C. R. (2009). Fuzzy neural network control for vehicle stability utilizing magnetorheological suspension system. Journal of Intelligent Material Systems and Structures, 20(4), 457-466. (JCR分区：Q2)

[09] Yu, M., Xia, Y. Q., & Yan, X. R. (2009). Analysis and verification on the chain-like model with normal distribution of magnetorheological elastomer. Chinese Journal of Chemical Physics, 22(5), 545. (JCR分区：Q4)

[08] Yu, M., Dong, X. M., Choi, S. B., & Liao, C. R. (2009). Human simulated intelligent control of vehicle suspension system with MR dampers. Journal of Sound and Vibration, 319(3-5), 753-767. (JCR分区：Q1)

[07] Yu, M., Liao, C. R., Chen, W. M., & Huang, S. L. (2006). Study on MR semi-active suspension system and its road testing. Journal of intelligent material systems and structures, 17(8-9), 801-806. (JCR分区：Q2)

[06] Dong, X. M., Yu, M., Li, Z., Liao, C., & Chen, W. (2009). A comparison of suitable control methods for full vehicle with four MR dampers, part I: Formulation of control schemes and numerical simulation. Journal of Intelligent Material Systems and Structures, 20(7), 771-786. (JCR分区：Q2)
 
[05] Dong, X. M., Yu, M., Liao, C. R., & Chen, W. M. (2010). Comparative research on semi-active control strategies for magneto-rheological suspension. Nonlinear dynamics, 59(3), 433-453. (JCR分区：Q1)

[04] Dong, X. M., Miao, Y., Liao, C. R., & Chen, W. M. (2009). A new variable stiffness absorber based on magneto-rheological elastomer. Transactions of Nonferrous Metals Society of China, 19, s611-s615. (JCR分区：Q1)

[03] Dong, X. M., YuI, M., Li, Z., Liao, C., & Chen, W. (2009). A comparison of suitable control methods for full vehicle with four MR dampers, part I: Formulation of control schemes and numerical simulation. Journal of Intelligent Material Systems and Structures, 20(7), 771-786. (JCR分区：Q2)

[02] Dong, X. M., Yu, M., Li, Z., Liao, C., & Chen, W. (2009). A comparison of suitable control methods for full vehicle with four MR dampers part II controller synthesis and road test validation. Journal of Intelligent Material Systems and Structures, 20(9), 1107-1119. (JCR分区：Q2)

[01] Dong, X., Yu, M., Li, Z., Liao, C., & Chen, W. (2008). Neural network compensation of semi-active control for magneto-rheological suspension with time delay uncertainty. Smart Materials and Structures, 18(1), 015014. (JCR分区：Q1)


 

国内论文

 

[38]王伟，高凡，段西蓉，李旺，浮洁. 多级线圈驱动的磁流变弹性体夹层梁结构设计与实验[J]. 重庆大学学报，2024，47(8): 19-25.

 

[37]甘如饴，浮洁，綦松，余淼. 基于微流控系统的磁流变胶微观结构演化与磁敏行为分析[J]. 材料导报，2024，38(21): 1-5.

 

[36] 钟灿，黄振，李旺，浮洁，韩锦聿，余淼，綦松. 精密平台磁敏智能隔振系统自适应PI控制研究. 振动与冲击，2024,43（8）: 232-237.

 

[35] 刘静，浮洁，韩锦聿. 直升机磁流变座椅悬架缓冲系统模糊控制器设计. 重庆大学学报, 2022, 45(3): 31-40.

[34] 李伟，周靖，杜秀梅，田应飞，李剑，张勇，余淼. 基于Ｄ-Ｓ证据信息融合方法的全地形车行驶工况辨识. 重庆大学学报，2022，45（3）: 1-11.

 

[33] 赖俊杰，浮洁，白俊峰，杨泽宁，代镇宇，余淼. 精密加工平台隔振系统多频振动控制. 振动与冲击，2019, 38 (10): 242-249. (EI收录)

 

[32] 余淼，刚柔并济——具有磁敏特性的粘弹性智能材料，中国材料进展，2018, 37(10): 791-802. 

 

[31] 赖俊杰，浮洁，廖冠尧等. 一种基于压电堆执行器的柔性结构滞后补偿PID控制. 噪声与振动控制，2018, 38 (2): 30-35.

 

[30] 朱秘，余淼，浮洁，綦松，杨平安，基于磁流变弹性体的缓冲装置设计及其冲击响应特性研究，振动与冲击，2017, 36(4):172-177. (EI收录)

[29] 王渊，浮洁，李沛东，邢志伟，余淼，面向精密平台振动控制的压电堆执行器动态特性研究，压电与声光，2015，37(2):223-227.

[28] 浮洁，居本祥，余淼，郑星，杨其. 磁流变弹性体的厚度对其力学性能的影响. 功能材料. 2013, 44(9): 1277-1280. (EI检索)

[27] 王四棋,余淼,浮洁,平文彬,邹卫东. 正弦激励作用下磁流变阻尼器温升理论与试验研究,机械工程学报，2013, 49(8): 123-128. (EI检索)

[26] 余淼，帅璐，刘胜龙，浮洁，汽车发动机ECU环境耐久性测试原理与实现，汽车工程，2013, 35(5):392-396.

[25] 居本祥，余淼，浮洁. 磁流变弹性体压缩模式动态力学性能测试. 功能材料，2012, 43(3):360-362.

[24] 郑星，浮洁，余淼，居本祥，杨其. 基于链化模型的磁流变弹性体磁致压缩模型分析. 功能材料，2012, 15(43): 2056-2059. (EI检索)

[23] 居本祥，余淼，浮洁. 羰基铁粉的C含量对磁流变弹性体磁流变效应的影响. 重庆大学学报，2012,35(8):17-21. (EI检索)

[22] 杨成云，浮洁，余淼，具有随机干扰的车辆座椅悬架系统的鲁棒 控制,重庆大学学报，2012, 35(6): 9-14. (EI检索)

[21] 王晓军，余淼*，朱永， 蓝宝石晶体高温传感器解调方法研究，光电子•激光，2012, 23(2):209-214. (EI检索)

[20] 余淼，王晓军，浮洁，朱永， 蓝宝石晶体高温传感器的信号解调及标定，红外与激光工程，2012, 41(10):2733-2739. 

[19] 平文彬,王四棋,帅璐,杨继伟,余淼，基于自供电的磁流变阻尼器内部状态无线监测系统设计,传感技术学报，2012, 25(9):1294-1298.

[18] 张夏,魏文雄,余淼,郭江伟，基于Windows的HART组态软件设计，计算机工程，ISTICPKU 2012，38(16):241-244.

[17] 余淼，居本祥. 磁流变弹性体剪切式动态力学性能测试. 功能材料，2011, 42(11):1939-1942. (EI收录)

[16] 余淼，夏永强，王四棋，朱李晰，磁流变弹性体的隔振缓冲器磁路分析,振动与冲击，2011, 30(4):1-4. (EI收录)

[15] 余淼，严小锐，夏永强，基于链化模型的磁流变弹性体磁致效应影响因素分析，功能材料， 2009, 8(40):1263-1266. (EI收录)

[14] 余淼，刘胜龙，朱李晰，夏永强，汽车发动机ECU的可靠性试验研究，内燃机工程，2010, 31(3): 90-94. (EI收录)

[13] 董小闵，余淼，廖昌荣，陈伟民，基于混合田口遗传算法的磁流变半主动悬架模糊控制，振动与冲击，2010, 29(6):149-153. (EI收录)

[12] 董小闵，余淼，廖昌荣，陈伟民，冲击载荷下磁流变变刚度变阻尼缓冲系统减振控制，农业机械学报,2010, 41(3):20-24. (EI收录)

[11] 夏永强，余淼，刘胜龙，磁流变弹性体隔振缓冲器设计及实验研究，振动与冲击，2010, 9: 203-207. (EI收录)

[10] 董小闵，李祖枢，余淼，廖昌荣，陈伟民，仿人智能控制及其在磁流变半主动悬架中的应用，控制理论与应用，2010, 27(2): 250-256. (EI收录)

[09] 魏文雄，郭江伟，巫正中，余淼，摩托车发动机ECU可靠性测试软件研究，内燃机与配件，2010, 7:1-3.

[08] 董小闵，余淼，廖昌荣，陈伟民，磁流变刚度阻尼可控缓冲系统冲击减振控制，四川大学学报，2009, 41(6):187-192.

[07] 余淼，朱李晰，董小闵，李祖枢，磁流变隔振缓冲系统的仿人智能控制，中南大学学报，2009, 40(S1):58-62.

[06] 余淼，夏永强，基于链化分析的磁流变弹性体剪切模量模型，功能材料，2009, 40(11):1794-1797.（EI收录）

[05] 余淼，廖昌荣，李锐，陈伟民，黄尚廉，基于小波变换的磁流变悬架模糊控制算法，功能材料，2006, 37(5): 786-789.

[04] 余淼，毛林章，廖昌荣，陈伟民，基于磁流变阻尼器的汽车半主动悬架的振动控制，传感器与微系统，2007, 26(12):34-40.

 
[03] 余淼，严小锐，毛林章，一种刚度、阻尼可控的新智能材料—磁流变弹性体，材料导报，2007, 21(7): 103-107.

[02] 余淼，陈爱军，廖昌荣，张红辉，陈伟民，磁流变阻尼器的电流驱动器的设计与测试，仪器仪表学报，2006, 27(8):928-931. 

[01] 余淼，廖昌荣，李立新，陈伟民，黄尚廉，磁流变减振器控制研究，化学物理学报，2001, 5：606-613.


 

国际会议
 

[13] Yuan Wang, Jie Fu, Peidong Li, Miao Yu, Experimental Study on Fuzzy Control of Flexible Beam Using Piezoelectric Stack Actuator, the 2015 27th Chinese Control and Decision Conference, May 23-25, 2015, Qingdao, China, p 947-952.

[12] Peidong Li, Jie Fu, Yuan Wang, Zhiwei Xing, Miao Yu   Dynamic Model and Parameters Identification of Piezoelectric Stack Actuators, May 31 - June 2, 2014: 1918-1923, The 26th Chinese Control and Decision Conference. 

[11] Zhi-Wei Xing, Miao Yu, Jie Fu, Lu-Jie Zhao, Development and validation of a lateral MRE sisolator,August 8–13, 2014, Proceedings of SPIE Vol. 9446, 9th International Symposium on Precision Engineering Measurements and Instrumentation.

[10] Mingfu Wen, Miao Yu, Jie Fu, Zhengzhong Wu, Multi-functional Hinge Equipped with a Magneto-rheological Rotary Damper for Solar Array Deployment System, August 8–13, 2014, Proceedings of SPIE Vol. 9446, 9th International Symposium on Precision Engineering Measurements and Instrumentation.

[09] Miao Yu, Siqi Wang, Jie Fu, Youxiang Peng. Unsteady flow damping force prediction of MR dampers subjected to sinusoidal loading, Journal of Physics:Conference Series 412 (2013) 012052. 

[08] Benxiang Ju, Miao Yu, Jie Fu, Xing Zheng, Qi Yang, Study on the properties of porous magnetorheological elastomers under shock effect, Journal of Physics: Conference Series 412 (2013) 012039. 

[07] Jie Fu, Miao Yu, Xiaomin Dong, Lixi Zhu, Magnetorheological Elastomer and Its Application on Impact Buffer, Journal of Physics: Conference Series 412 (2013) 012032. 

[06] Huijuan Yao, Jie Fu, Miao Yu, Youxiang Peng, Semi-active  control of seat suspension with MR damper, Journal of Physics: Conference Series 412 (2013) 012054. 

[05] Miao Yu, Ting Deng, Jie Fu, Application of RFID and GPS technology in transportation vehicles monitoring system for dangerous goods, 2012 2nd International Conference on Remote Sensing,Environment and  Transportation Engineering, RSETE 2012-Proceedings. 
 

[04] Jiangwei Guo, Miao Yu, Shenglong Liu, Gaihong Yan, Design of Durability Testing System for Motorcycle Engine ECU, Sixth International Symposium on Precision Engineering Measurements and Instrumentation, Hangzhou, 2010, 75441F-1-6.

[03] Miao Yu, Yongqiang Xia, Siqi Wang, Yumei Wen, Analysis on Magneto-Induced Shear of MR Elastomer Base on Chain-like Model of with Normal Distribution, 20th International Conference on Adaptive Strucutures and Technologies, Hongkong, October 20-22, 2009, 896-905. 

[02] Miao Yu, Lixi Zhu, Xiaomin Dong, Changrong Liao, Adaptive Fuzzy Logical Control for Impact Absorbing, 2008 IEEE International Conference on Fuzzy Systems, 1853-1860. 

[01] Miao Yu, Lixi Zhu, Xiaomin Dong, Zhushu Li, Response Time of MR Suspension System and Control Compensation, Krakow, Poland, May 25-27, 2008, 797-801.