共查询到18条相似文献,搜索用时 46 毫秒
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新型的超细粉碎介质——刚玉微珠 总被引:1,自引:0,他引:1
介绍了一种新型的超细粉碎介质--刚玉微珠,并对其进行一系列试验,试验结果其性能指标,研磨效果、经济效益等明显优于玻璃珠,可广泛应用于钛白粉、油漆、油墨、染料、颜料、涂料、碳酸钙、高岭土、医药、化妆品、农药等行业,是目前搅拌磨较为理想的研磨介质。 相似文献
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本文阐述了新型超细磨设备TCIF0.2型周期式搅拌球磨机的机理、设计思想以及研制试验情况。试验结果表明,采用该设备细磨的物料呈分散均匀性很好的超细度状态,而且生产效率显著提高、节能效果良好,是理想的物料起细磨设备。经轻工部鉴定,确认该设备填补了我国轻工行业超细粉碎设备的空白。 相似文献
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介绍了利用搅拌球磨机生产具有国际同类产品质量水平的硅酸锆超细粉的生产实践,并就生产中的几个主要工艺条件进行了探讨。 相似文献
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介绍一种新型超细搅拌球磨机,用于磨制生产水煤浆用超细煤粉;分析了该机的结构特点、工作原理、性能特点以及磨矿介质粒径的选取等;论述了磨机各组成部分的技术特点。 相似文献
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以硬脂酸作为改性剂、六偏磷酸钠作为助磨剂,采用搅拌球磨机对凹凸棒石黏土进行超细粉碎与表面改性一体化研究.探讨了搅拌转速、改性时间、球料比、改性剂用量及助磨剂用量对超细粉碎及表面改性效果的影响,得到优化工艺条件:搅拌转速为750 r/min,改性时间为40 min,球料质量比为4∶1,改性剂硬脂酸的加入质量为凹凸棒石黏土质量的4%,助磨剂六偏磷酸钠的加入质量为凹凸棒石黏土质量的0.5%.在优化工艺条件下,改性凹凸棒石黏土粉体的活化指数可达0.97,吸油值为0.34 mL/g,产品粉体中位径d50为0.64 μm.通过对改性前后粉体的红外光谱比较,说明了凹凸棒石黏土机械力化学超细粉碎与表面改性的机理,以及其可行性. 相似文献
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搅拌球磨机在α-氧化铝超细粉碎中的应用 总被引:4,自引:0,他引:4
本文对周期式搅拌球磨机在α-氧化铝超细粉碎中的应用进行了实验研究,提出了适宜的工艺参数,并同其它常用研磨设备进行了对比,结果表明,国产周期式搅拌球磨机用于生产α-氧化铝超细粉具有研磨效率高,产品粒度分布范围窄等优点,适用于国内中、小型特种陶瓷生产厂家使用 相似文献
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为提高氧化铝的湿式超细粉碎效果,降低能耗,进行了助磨荆试验研究.试验对氯化铝、有机硅、二乙醇胺3种助磨剂进行了研究.结果表明:氯化铝为氧化铝湿式超细粉碎的理想助磨剂,它的加入改善了粉碎效率,-3.0μm颗粒的产率由71.80%(未加助磨刺)增大至95.13%(氯化铝用量为0.05%).在此基础上,分析了助磨剂的助磨机理,提出了选用助磨剂的一般原则. 相似文献
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为了得到重钙的粒度分布和超细粉碎工艺条件之间的定量关系,研究了行星式球磨机中重钙的湿法超细粉碎过程,主要考察了氧化锆球的直径、球的填充率、浆料中碳酸钙的质量分数、球磨机自转速度及球磨时间对重钙粒度分布的影响。实验结果表明,重钙的粒度分布符合经验方程R(d)=kd^n/(d50^n+d^n),方程参数和粉碎工艺条件之间的关系可用多项式y=a+∑1=1^3 ∑i=1^4 bi^j xi^j+b5^1x5+b5^2x5^2表示,应用这两个方程可以模拟和预测行星磨中重钙湿法超细粉碎过程的粒度分布。 相似文献
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Catharina Knieke Stefan Romeis Wolfgang Peukert 《American Institute of Chemical Engineers》2011,57(7):1751-1758
In long‐term milling experiments, in a stirred media mill, a grinding limit where no further particle breakage occurs was identified. During mechanical stressing of the particles, defects are generated in the crystalline lattice, which allows real fracture of nanoparticles. Below a critical size, defects cannot be stored or generated in the crystallites and the overall limit of grinding is reached. This limit is strongly influenced by material properties and hardly affected by most of the process conditions. However, the breakage kinetics strongly depend on the process parameters and suspension conditions as long as the grinding limit is not reached. Based on these findings, two mechanisms of nanoparticle breakage are proposed. Proper choice of process parameters saves not only up to 90% of the energy input to reach the grinding limit but also leads to a higher product quality in terms of crystallinity and less milling bead wear. © 2010 American Institute of Chemical Engineers AIChE J, 2011 相似文献
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In this article, our self‐designed pan mill equipment was used to pulverize high‐density polyethylene (HDPE) to prepare its powder product. This pan mill based on three‐dimensional shear forces shows much better pulverization effects on ductile polymer materials when compared with conventional pulverizing equipment based on impact force, and it can mill original HDPE pellets (particle size: 3–4 mm) into fine powder (particle size: 75 μm) at ambient temperature. To further improve the pulverization efficiency to obtain ultrafine HDPE powder, sodium chloride (NaCl), serving as a grinding aid, was comilled with HDPE. Taking the advantages of the cutting and isolating effects of NaCl crystals, HDPE can be pulverized into ultrafine powder with the particle size below 10 μm. Another advantage of NaCl as a grinding aid lies in an easy removal process through water wash, thus conveniently separating from hydrophobic HDPE powder. This technology provides a novel and efficient method to prepare the ultrafine powder of those polymers with high ductility and low melt point, and shows a promise in future commercial application. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci 2007 相似文献