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[106]Wang Li, Jie Fu, Can Zhong,  Miao Yu, Hak-Keung Lam. Characterization and vibration control of a magnetorheological damper-based tail support for wind tunnel tests[J]. Nonlinear Dynamics, 2025, 1-15. (JCR: Q1).

 

[105]Wei Li, Xiumei Du, Dongbin Xia, Jie Fu, Miao Yu. Robust H_∞ control for magnetorheological suspension system of all-terrain vehicles with parameter uncertainties and time delay[J]. Vehicle System Dynamics, (2025) 2501993(1-26).(JCR: Q2).

 

[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.