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钛酸镁钾具有优异的力学性能,被广泛用作各类高级轿车刹车片的摩擦材料。而材料的组成及形貌对刹车效果的影响很大,传统的合成工艺无法对其进行有效地控制。本文通过对煅烧工艺的优化,从而得到结晶度和形貌俱佳的钛酸镁钾片晶。以Mg(OH)_2、K_2CO_3和TiO_2为原料,加入KCl为熔盐,采用熔盐法合成钛酸钾镁片晶(KMTO)。利用X射线衍射仪(XRD)和扫描电子显微镜(SEM)技术手段研究了煅烧工艺(升温速率、煅烧温度、保温时间)对钛酸钾镁片晶组成及形貌的影响,并对其反应机理进行了初步的探讨。结果表明,不同的煅烧工艺对熔盐法合成钛酸镁钾片晶的组成及形貌产生了显著的影响,以200℃/h升温至800℃后,再以100℃/h升温至1000℃,保温2 h,通过水洗干燥,即可得到结晶度较高、形貌比较均匀的K_(0.8)Mg_(0.4)Ti_(1.6)O_4片晶。 相似文献
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双盘状ZnO的可控制备 总被引:1,自引:0,他引:1
采用水热法制备了形貌可控、 尺寸均一的双盘状ZnO. X射线粉末衍射(XRD)、 扫描电子显微镜(SEM)及透射电子显微镜(TEM)等测试结果表明, 制备的ZnO具有六方纤锌矿结构, 由2个直径约为4 μm, 厚度约为600 nm的圆盘复合而成. 考察了反应温度和乙酸锌与柠檬酸钾的摩尔比对产物形貌与尺寸的影响, 实现了双盘状ZnO的可控合成, 并初步探讨了其形成机理. 荧光光谱显示, 双盘状ZnO的紫外发射峰半高宽约为10 nm, 比块体ZnO的紫外发射峰半高宽(18 nm)窄, 表明双盘状ZnO具有更好的光学特性. 相似文献
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The phase transitions and the internal aggregate structures of a highly dense suspension composed of magnetic plate-like particles with a magnetic moment normal to the particle axis have been investigated by means of the Monte Carlo method. The present study considered a quasi-2D system in order to clarify the influences of the volumetric fraction of particles and the magnetic field strength on particle aggregations and phase transitions. The internal structures of particle aggregates have been discussed quantitatively in terms of pair correlation functions, orientational pair correlation functions, nematic and polar order parameters. The main results obtained here are summarized as follows. When the influence of the magnetic interaction between particles is of the same order of that of the perpendicular magnetic field strength, the particles form column-like clusters, and the internal structure of the suspension shows solid-like structures. For the case of a strong applied magnetic field, the internal structure is transformed from solid-like structures into isotropic ones. However, as the volumetric fraction increases, the particles form brick wall-like structures under the situation of a strong applied magnetic field, and the internal structure exhibits solid-like ones. The brick wall-like structures also appear for a relatively weak magnetic field applied along the in-plane direction despite a slightly smaller volumetric fraction compared with the case of the perpendicular applied magnetic field. 相似文献
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We have investigated aggregation phenomena of a colloidal dispersion composed of magnetic plate-like particles by means of Monte Carlo simulations. Such plate-like particles have been modelled as disk-like particles with magnetic moment normal to the particle axis at the particle centre, with the section shape of a spherocylinder. The main objective of the present study is to clarify the influences of the magnetic field strength and magnetic interactions between particles on particle aggregation phenomena. We have concentrated our attention on a quasi-2D system from an application point of view such as the development of surface quality changing technology using such magnetic plate-like particles. A magnetic field is applied along the direction perpendicular to the plane of the monolayer. Internal structures of particle aggregates are discussed quantitatively in terms of radial distribution and orientational pair correlation functions. For the case of strong magnetic interactions between particles, particles form long column-like clusters with their magnetic moments alternating in direction between the neighbouring particles. These tendencies appear under circumstances of a weak applied magnetic field. However, as the magnetic field strength increases, particles incline towards the magnetic field direction, so that particles do not form such clusters. 相似文献
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