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Cylpebs磨矿介质(圆锥柱形介质)是其长度与直径比等于1的圆锥柱形磨矿介质。制造这种Cylpebs磨矿介质的厂家在比较这种介质和圆球介质时得出了矛盾的结论。一个主要兴趣点是在相同磨矿操作条件下哪个磨得更细些。因为介质形状不同,对比它们是比较困难的。两种磨矿介质具有不同的表面积和堆积密度,在磨矿作用中的接触机理也不一样。用装有两种磨矿介质的实验室邦德磨机进行了介质重量、粒级分布、表面积和单位输入能量等各种条件相等条件的对比试验。实验室试验结果表明,在相同单位输入能量水平下,Cylpebs磨矿介质得到的磨矿产品中粗粒含量少些,这是因为它的表面积大些,但是锥柱状介质细的一端产生的细粒数量与圆球介质基本相当。其原因可能是Cylpebs磨矿介质表面积大的优势被其线接触与面接触磨矿作用所抵消了。应用一个新的球磨放大程序,由实验室试验结果预测在工业规模磨机中,Cylpebs磨矿介质的磨矿行为。将预测的工业规模的磨矿操作结果与现场测量数据进行了比较,结果表明,原来的放大程序存在着一些问题。因此,对放大程序做了修正,以使预测的球磨机操作参数与观察结果相吻合。用修正的放大程序由实验室试验结果预测了Cylpebs磨矿介质在工业规模磨机中的磨矿行为。
Cylpebs grinding media (cone cylindrical media) is its length to diameter ratio of 1 cone cylindrical grinding media. Manufacturers of such Cylpebs grinding media have come to the conflicting conclusions when comparing such media with spherical media. One of the main points of interest is which of the more detailed grinding conditions are used for the same grinding operation. Because of the different media shapes, it is more difficult to compare them. The two grinding media have different surface areas and bulk densities and have different contact mechanisms in grinding. A comparative test of equal conditions under various conditions of medium weight, particle size distribution, surface area, and unit input energy was performed using a laboratory Bond mill equipped with two grinding media. Laboratory tests have shown that the grinding media produced by Cylpebs grinding media have less coarse particles at the same unit input energy levels due to its larger surface area but the fine particles produced at the fine end of the tapered columnar media The amount of ball medium and basically the same. The reason for this may be that the large surface area of Cylpebs grinding media is offset by its line contact and surface contact grinding. A new milling magnification program was applied to predict the grinding behavior of Cylpebs grinding media from laboratory tests in industrial scale mills. The results of the predicted industrial-scale grinding operation compared with the field measurements show that there are some problems with the original amplification procedure. Therefore, the amplification procedure was modified to match the predicted ball mill operating parameters with the observations. The results of laboratory tests using a modified amplification program predict the grinding behavior of Cylpebs grinding media in industrial scale mills.