The enhanced magnetorheological performance of carbonyl iron suspensions using magnetic Fe3O4/ZHS hybrid composite sheets

Machovsky Michal; Mrlik Miroslav; Plachy Tomas; Kuritka Ivo; Pavlinek Vladimir; Kozakova Zuzana; Kitano Takeshi

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The enhanced magnetorheological performance of carbonyl iron suspensions using magnetic Fe3O4/ZHS hybrid composite sheets

机译：磁性Fe3O4 / ZHS杂化复合片增强羰基铁悬浮液的磁流变性能。

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Two-dimensional magnetic Fe3O4/ZHS hybrid composite sheets were prepared via a two-step microwave-assisted solvothermal synthesis. The successful incorporation of Fe3O4 nanoparticles synthesized in the first step into a zinc hydroxysulfate (ZHS) sheet-like structure formed during the second synthesis step was confirmed by X-ray diffraction, scanning electron microscopy, and vibrating sample magnetometry. The obtained magnetic Fe3O4/ZHS hybrid composite particles show a hexagonal and sheet-like morphology. The addition of these sheet-like hybrid composite particles into magnetorheological carbonyl iron-based suspensions results in a significant increase in MR performance. Moreover, this addition considerably contributes to the redispersibility enhancement of prepared suspensions in comparison to those consisting only of bare carbonyl iron particles.

机译：通过两步微波辅助溶剂热合成法制备了二维磁性Fe3O4 / ZHS杂化复合片。通过X射线衍射，扫描电子显微镜和振动样品磁力分析法证实了第一步合成的Fe3O4纳米颗粒成功掺入到第二步合成过程中形成的羟基硫酸锌（ZHS）片状结构中。所获得的磁性Fe 3 O 4 / ZHS杂化复合颗粒显示出六角形和片状形态。将这些片状杂化复合颗粒添加到磁流变羰基铁基悬浮液中可显着提高MR性能。此外，与仅由裸露的羰基铁颗粒组成的悬浮液相比，这种添加大大有助于制备的悬浮液的再分散性增强。

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《RSC Advances 》 |2015年第25期| 共7页
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Machovsky Michal; Mrlik Miroslav; Plachy Tomas; Kuritka Ivo; Pavlinek Vladimir; Kozakova Zuzana; Kitano Takeshi;
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中图分类化学 ;
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1. The enhanced magnetorheological performance of carbonyl iron suspensions using magnetic Fe3O4/ZHS hybrid composite sheets [J] . Machovsky Michal, Mrlik Miroslav, Plachy Tomas, RSC Advances . 2015 ,第25期

机译：磁性Fe3O4 / ZHS杂化复合片增强羰基铁悬浮液的磁流变性能。
2. Enhanced magnetorheological response of magnetic chromium dioxide nanoparticle added carbonyl iron suspension [J] . Kim Min Hwan, Choi Kisuk, Nam Jae Do, Smart Materials & Structures . 2017 ,第9期

机译：增强磁性二氧化铬纳米颗粒添加羰基铁悬浮液的磁流变响应
3. Enhanced magnetorheology of soft magnetic carbonyl iron suspension with binary mixture of Ni-Zn ferrite and Fe3O4 nanoparticle additive [J] . Hajalilou Abdollah, Mazlan Saiful Amri, Shilan Salihah Tan, Colloid and polymer science . 2017 ,第9期

机译：用Ni-Zn铁氧体和Fe3O4纳米粒子添加剂二元混合物增强软磁羰基悬浮液的磁流变学
4. AQUEOUS MAGNETORHEOLOGICAL SUSPENSIONS OF COMPOSITE CARBONYL IRON PARTICLES [C] . H. B. Cheng, L. Zuo, Q. J. Zhang, SMASIS2010;ASME conference on smart materials, adaptive structures and intelligent systems . 2011

机译：复合羰基铁颗粒的磁流变悬浮液
5. Synthesis, characterization and application of iron (II, III) oxide (Fe3O4) magnetic nanoparticles in mimic of wound healing model [D] . Konyala, Divya. 2015

机译：氧化亚铁（Fe3O4）磁性纳米粒子的合成，表征及在模拟伤口愈合模型中的应用
6. Magnetorheological Hybrid Elastomers Based on Silicone Rubber and Magnetorheological Suspensions with Graphene Nanoparticles: Effects of the Magnetic Field on the Relative Dielectric Permittivity and Electric Conductivity [O] . Ioan Bica, Octavian Mădălin Bunoiu 2019

机译：基于硅橡胶和石墨烯纳米颗粒的磁流变悬浮液的磁流变杂化弹性体：磁场对相对介电常数和电导率的影响
7. The enhanced magnetorheological performance of carbonyl iron suspensions using magnetic Fe3O4/ZHS hybrid composite sheets [O] . Machovský, Michal, Mrlík, Miroslav, Plachý, Tomáš, 2015

机译：磁性Fe3O4 / ZHS杂化复合片增强羰基铁悬浮液的磁流变性能。

The enhanced magnetorheological performance of carbonyl iron suspensions using magnetic Fe3O4/ZHS hybrid composite sheets

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