Discrete element method (DEM) modelling of evolving mill liner profiles due to wear. Part I: DEM validation

J. T. Kalala; M. Bwalya; M. H. Moys

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Discrete element method (DEM) modelling of evolving mill liner profiles due to wear. Part I: DEM validation

机译：由于磨损而引起的轧机衬套轮廓的离散元方法（DEM）建模。第一部分：DEM验证

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Since the early 1990s the discrete element method (DEM) gained considerable success in its ability to predict the power draw and the load behaviour in mills as affected by operating conditions. The DEM can also be used to design milling equipment and predict the breakage of particles. A detailed validation of this method is required in order to produce accurate results. In this paper, we assess the ability of the DEM to predict forces exerted by the mill charge on liners. Data obtained on an experimental two-dimensional mill designed in order to record the normal and tangential forces exerted on an instrumented lifter bar was available. The measured results are compared to the DEM simulated results. Good agreement has been found in terms of amplitude of forces and positions of shoulder and toe at low speed.

机译：自1990年代初以来，离散元方法（DEM）在预测受运行条件影响的轧机中的功率消耗和负荷行为方面已经获得了相当大的成功。 DEM还可以用于设计研磨设备并预测颗粒的破裂。为了产生准确的结果，需要对此方法进行详细的验证。在本文中，我们评估了DEM预测磨料在衬板上施加的力的能力。提供了在实验的二维磨机上获得的数据，该二维磨机被设计用来记录施加在仪表杆上的法向和切向力。将测量结果与DEM模拟结果进行比较。在低速时，在力量幅度以及肩膀和脚趾的位置方面已经找到了很好的一致性。

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《Minerals Engineering 》 |2005年第15期| 共6页
作者
J. T. Kalala; M. Bwalya; M. H. Moys;
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正文语种 eng
中图分类矿业工程 ;
关键词
Discrete element method; Forces on liners; Load behaviour;

机译：离散元法;作用于衬套上;载荷行为;

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专利

1. Discrete element method (DEM) modelling of evolving mill liner profiles due to wear. Part I: DEM validation [J] . J. T. Kalala, M. Bwalya, M. H. Moys Minerals Engineering . 2005 ,第15期

机译：由于磨损而引起的轧机衬套轮廓的离散元方法（DEM）建模。第一部分：DEM验证
2. Further validation of DEM modeling of milling: effects of liner profile and mill speed [J] . O. Hlungwani, J. Rikhotso, H. Dong Minerals Engineering . 2003 ,第10期

机译：铣削DEM建模的进一步验证：衬里轮廓和铣削速度的影响
3. Study of the influence of liner wear on the load behaviour of an industrial dry tumbling mill using the Discrete Element Method (DEM) [J] . Johnny T. Kalala, Mark Breetzke, Michael H. Moys International Journal of Mineral Processing . 2008 ,第1a4期

机译：使用离散元方法（DEM）研究衬板磨损对工业干式翻滚磨机负荷行为的影响
4. VALIDATION OF THE DISCRETE ELEMENT METHOD (DEM) BY COMPARING PREDICTED LOAD BEHAVIOUR OF A GRINDING MILL WITH MEASURED DATA [C] . MH Moys, MA van Nierop, JC van Tonder, XXI International Mineral Processing Congress . 2000

机译：通过将磨碎机的预期载荷行为与测量数据进行比较来验证离散元法（DEM）
5. Real time analysis with development, simulation and validation of discrete element method models for tumbling mill charge motion and liner wear. [D] . Arekar, Chaitanya. 2004

机译：通过开发，模拟和验证离散元素方法模型进行实时分析，以用于翻滚轧机装料运动和衬板磨损。
6. Effect of Different Raw Material Property for the Fabrication on Al/CNT Nanocomposite Using a Ball Mill with a Discrete Element Method (DEM) Simulation [O] . Battsetseg Jargalsaikhan, Amgalan Bor, Jehyun Lee, 2019

机译：离散元法（DEM）球磨机制备不同原料性能对Al / CNT纳米复合材料的影响
7. Discrete Element Method (DEM) for Industrial Applications: Comments on Calibration and Validation for the Modelling of Cylindrical Pellets [O] . Michele Marigo, Edmund Hugh Stitt 2015

机译：用于工业应用的离散元素方法（DEM）：关于圆柱形颗粒造型校准和验证的评论

Discrete element method (DEM) modelling of evolving mill liner profiles due to wear. Part I: DEM validation

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