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研制了一种新型的磁流变胶,通过稳态和动态剪切试验对其流变性能进行了测试.结果表明:在较大磁场作用下磁流变胶的剪切应力对剪切率的依赖性很小,并具有较大的剪切应力;其线性粘弹性区域随着外加磁场的增大而变宽;其储能模量G1在外加磁场作用下可以达到7.98MPa(H=102.8 kA·m-1),并且与磁流变液一样在外加磁场作用下其G1曲线也出现了三个明显的变化区域.

参考文献

[1] 汪建晓,孟光.磁流变液研究进展[J].航空学报,2002(01):6-12.
[2] Fuchs A.;Xin M.;Gordaninejad F.;Wang XJ.;Hitchcock GH.;Gecol H. Evrensel C.;Korol G. .Development and characterization of hydrocarbon polyol polyurethane and silicone magnetorheological polymeric gels[J].Journal of Applied Polymer Science,2004(2):1176-1182.
[3] Wilson MJ.;Fuchs A.;Gordaninejad F. .Development and characterization of magnetorheological polymer gels[J].Journal of Applied Polymer Science,2002(14):2733-2742.
[4] Fuchs A;Hu B;Gordaninejad F;Evrensel C .Synthesis and characterization of magnetorheological polyimide gels[J].Journal of Applied Polymer Science,2005(6):2402-2413.
[5] Shiga T.;Kurauchi T.;Okada A. .MAGNETROVISCOELASTIC BEHAVIOR OF COMPOSITE GELS[J].Journal of Applied Polymer Science,1995(4):787-792.
[6] Mitsumata T.;Furukawa K.;Juliac E.;Iwakura K.;Koyama K. .Compressive modulus of ferrite containing polymer gels[J].International Journal of Modern Physics, B. Condensed Matter Physics, Statistical Physics, Applied Physics,2002(17/18):2419-2425.
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