Effect of interstitial filling, ball and feed size on particle breakage in a laboratory ball mill: An Attainable Region technique

P.M. Tembo; S. Khumalo; D.P. Chakawa; G. Danha; N. Hlabangana; E Muzenda

首页> 外文期刊>Procedia Manufacturing >Effect of interstitial filling, ball and feed size on particle breakage in a laboratory ball mill: An Attainable Region technique

【24h】

Effect of interstitial filling, ball and feed size on particle breakage in a laboratory ball mill: An Attainable Region technique

机译：间隙填充，球和饲料大小对实验室球磨机颗粒破损的影响：可达到的区域技术

获取原文

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

The interstitial filling, grinding media and feed particle size are vital parameters to be considered during ball mill operation. Experiments were conducted to ascertain whether there are possible interactions between the three variables and the fineness of the required product. The data obtained was analysed using the Attainable Region (AR) optimization method which is a model-free and equipment-independent tool. Experimental results indicate that there is a need to adjust or correlate powder filling with grinding media and feed particle size. It is of paramount importance to find optimal operational parameters for these variables during ball mill operations. The AR technique helps identify opportunities to save engineers significant time, reduce operation costs and consequently allow them to get closer to the objective of optimum plant operation that would result in achieving product requirements.

机译：间隙填充，研磨介质和饲料粒度是在球磨机操作期间考虑的重要参数。进行实验以确定三个变量之间是否存在相互作用和所需产物的细度。使用可获得的区域（AR）优化方法来分析所获得的数据，该方法是一种无型和设备无关的工具。实验结果表明，需要使用磨削介质和饲料粒度调节或相关的粉末填充。在球磨机操作期间找到这些变量的最佳操作参数至关重要。 AR技术有助于确定节省工程师的机会，减少运营成本，从而允许它们更接近最佳工厂操作的目标，从而实现产品要求。

著录项

来源
《Procedia Manufacturing》 |2019年第2019期|共5页
作者
P.M. Tembo; S. Khumalo; D.P. Chakawa; G. Danha; N. Hlabangana; E Muzenda;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种
中图分类工业建设与发展;
关键词
MillingAttainable RegionFeed sizeBall sizeInterstitial Filling;

机译：MillingAttainable地区费用尺寸球大小Intertitial填充;

相似文献

外文文献
中文文献
专利

1. Effect of ball and feed particle size distribution on the milling efficiency of a ball mill: An attainable region approach [J] . N. Hlabangana, G. Danha, E. Muzenda South african journal of chemical engineering . 2018,第4期

机译：球和进料粒度分布对球磨机研磨效率的影响：可达到的区域方法
2. Effect of media shape on particle breakage in a batch ball mill: Lessons learnt from Population Balance Model and Attainable Region technique [J] . S. Khumalo, N. Hlabangana, G. Danha, Procedia Manufacturing . 2019,第2期

机译：间歇式球磨机中介质形状对颗粒破碎的影响：人口平衡模型和可到达区域技术的经验教训
3. Investigation of the breakage parameters of gypsum as dependent on interstitial filling in a laboratory ball mill [J] . Vedat Deniz Granular matter . 2011,第4期

机译：在实验室球磨机中研究石膏的破损参数是否取决于填隙
4. DEVELOPMENT OF LABORATORY HARDWARE AND A PROTOCOL FOR DIRECT DETERMINATION OF BREAKAGE FUNCTIONS FOR FINE PARTICLES IN BALL MILLS [C] . D. E. Walsh SME annual meeting exhibit;CMA national western mining conference . 2011

机译：实验室硬件的开发和直接确定球磨机细颗粒破损功能的协议
5. Numerical and experimental analysis of breakage in a mill using the attainable region approach [D] . Metzger, Matthew Joseph 2011

机译：基于可达到区域法的轧机破损的数值和实验分析
6. One-Step Ball Milling Preparation of Nanoscale CL-20/Graphene Oxide for Significantly Reduced Particle Size and Sensitivity [O] . Baoyun Ye, Chongwei An, Yuruo Zhang, 2018

机译：一步法球磨制备纳米级CL-20 /氧化石墨烯可显着降低粒径和灵敏度
7. Effect of interstitial filling, ball and feed size on particle breakage in a laboratory ball mill: An Attainable Region technique [O] . P.M. Tembo, S. Khumalo, D.P. Chakawa, 2019

机译：间隙填充，球和饲料大小对实验室球磨机颗粒破损的影响：可达到的区域技术

Effect of interstitial filling, ball and feed size on particle breakage in a laboratory ball mill: An Attainable Region technique

摘要

著录项

相似文献

相关主题

期刊订阅