| | Pang HM, Gao YD, Xuan SH, Gong XL
Effect of secondary particles on the microstructure and mechanical properties of magnetorheological plastomers (Supporting Information)
Composites Part A, 153:106747, 2022(SCI工程技术1区) Pang HM, Xu ZB, Shen LJ, Li J, Zhang JS, Li ZY, Xuan SH, Gong XL
The dynamic compressive properties of magnetorheological plastomers: enhanced magnetic-induced stresses by non-magnetic particles (Supporting Information)
Journal of Materials Science & Technology, 102: 195-203, 2022(SCI工程技术1区) Xu JQ, Pang HM, Gong XL, Pei L, Xuan SH
A shape-deformable liquid-metal-filled magnetorheological plastomer sensor with a magnetic field ‘‘on-off’’ switch (Supporting Information)
iScience, 24: 102549, 2021(SCI工程技术2区) Wu JP, Pang HM, Ding L, Wang Y, He XK, Shu Q, Xuan SH, Gong XL
A lightweight, ultrathin aramid-based flexible sensor using a combined inkjet printing and buckling strategy
Chemical Engineering Journal, 421:129830, 2021(SCI工程技术1区) Pang HM, Pei L, Xu JQ, Cao SS, Wang Y, Gong XL
Magnetically tunable adhesion of composite pads with magnetorheologicalpolymer gel cores
Composites Science and Technology, 192: 108115, 2020(SCI工程技术1区) Pang HM, Pei L, Sun CL, Gong XL
Normal stress in magnetorheological polymer gel under large amplitude oscillatory shear
Journal of Rheology, 62: 1409, 2018(SCI物理2区) Pang HM, Xuan SH, Sun CL, Gong XL
A novel energy absorber based on the magnetorheological gel
Smart Materials and Structures, 26:105017, 2017(SCI工程技术2区) Pang HM, Xuan SH, Liu TX, Gong XL
Magnetic field dependent electro-conductivity of the graphite doped magnetorheological plastomer
Soft Matter, 11: 6893-6902, 2015(SCI工程技术1区)
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