【摘 要】
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A new class of electrorheological (ER) material using rare earth (RE=Y) oxide as the substrate, NaNO3-doped Y2O3 materials, were synthesized using Na2CO3 and Y(
【机 构】
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State Key Laboratory of Rare Earth Materials Chemistry and Applications,Department of Chemistry,Scho
论文部分内容阅读
A new class of electrorheological (ER) material using rare earth (RE=Y) oxide as the substrate, NaNO3-doped Y2O3 materials, were synthesized using Na2CO3 and Y(NO3)3 as starting materials. Their ER performance, dielectric property, and crystal structure were studied. The results show that doping NaNO3 can markedly enhance the ER activity of the Y2O3 material. For the suspensions of these materials in dimethyl silicone oil, a clear dependence of the shear stress on the doping degree of NaNO3 was observed, and the optimal value of Na/Y molar ratio of 0.6 in doping degree was discovered, the relative viscosity ηr (ηE/η0, E=4.2 kV*mm-1) of the suspensions is nine times higher than that of pure Y2O3 material. The new results of the relationship between ER effect and the microstructure were obtained, which are helpful for further understanding the mechanism of ER effect and synthesizing a good ER material.
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