Morphology Study of Particle Breakage Mechanisms in a Horizontal Stirred Mill: Automated and Manual Point Counting Approaches

Journal of Minerals and Materials Characterization and Engineering Pub Date : 2021-08-26 DOI:10.4236/jmmce.2021.95035

Reem Roufail, B. Klein

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Abstract

High-speed stirred mills are utilized to grind particles below 10mm. Grinding sulphide minerals to as low as 10mm achieve adequate mineral liberation for successful downstream mineral processing operations, such as flotation and leaching. Particle breakage mechanism such as fracture or abrasion, determines the morphological surface features of the product particles. It is anticipated that particles, which break along grain boundaries (intergranular) produce rough surfaces, whereas particles that break across the grain boundaries (transgranular) possess smoother surfaces. In this study, particles are ground in a stirred mill and their morphological features were analyzed using automated and manual detection methods. Literature and conventional belief are that high-speed stirred mills break particles by attrition. This paper showed that fracture is also an important breakage mechanism along with attrition. Breakage mechanism is a factor of input stress intensity, in the form of the mill agitator speed, and type of mineral. It is observed that at higher agitator speed galena fractures along the grain boundaries, whereas quartz, abrade across the grain boundaries.

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卧式搅拌磨中颗粒破碎机理的形态研究:自动和手动点计数方法

高速搅拌磨用于研磨10mm以下的颗粒。将硫化物矿物磨至低至10毫米，可使矿物充分解放，从而成功进行下游选矿操作，如浮选和浸出。颗粒破碎机制，如断裂或磨损，决定了产品颗粒的形态表面特征。可以预见，沿晶界(晶间)断裂的颗粒会产生粗糙的表面，而穿过晶界(穿晶)断裂的颗粒则具有更光滑的表面。在本研究中，颗粒在搅拌磨中研磨，并使用自动和手动检测方法分析其形态特征。文献和传统观念认为高速搅拌磨机通过磨擦使颗粒破碎。断裂也是一种重要的破坏机制。破碎机理是输入应力强度的一个因素，表现为磨机搅拌速度和矿物类型。在较高的搅拌速度下，方铅矿沿晶界断裂，而石英则沿晶界磨损。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Minerals and Materials Characterization and Engineering

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