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Guangshuo Wang,Dexing Zhao,Nannan Li,Yingzhe Zeng,Shuai Han,Yingying Ma,Xufeng Dong,Ruitao Yu 한국공업화학회 2019 Journal of Industrial and Engineering Chemistry Vol.79 No.-
In this study,flower-like Fe3O4 microspheres with hierarchical structure were prepared by a one-stepsolvothermal method, and the obtainedflower-like Fe3O4 microspheres were adopted as a newmagnetorheological (MR) material to prepare a uniform MR suspension with high performances. Thesynthesized samples were systematically examined using FE-SEM, TEM, TGA, XRD, XPS, BET and VSM. The preparedflower-like Fe3O4 microspheres-based MRfluid indicated typical MR properties, asevidenced by the fact that shear stress, yield stress, viscoelastic storage modulus and loss modulus of MRfluid strongly depended on magneticfield strengths. Specifically, the resultant MRfluid showed goodsedimentation stability with sedimentation ratio of 86.5% in the settling period. The excellentsedimentation stability could be attributed to the uniqueflower-like hierarchical structure, high specificsurface area and the reduced particle-fluid density mismatch.