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Wear parts of many mineral processing and mining equipment are often subjected to high stress loads applied at high speeds and at varying angles of incidence, where the prevalent mode of wear is high-stress gouging/sliding impact abrasion. Examples include crusher liners, wear liners in hoppers and chutes, picks on roadheaders, discs on tunnel boring machines and ground engaging tools. Abrasion under these conditions is characterised by a high material removal rate and thus has a direct bearing on wear rates and service life of the equipment concerned. However, at present there appears to be no method for rock abrasiveness assessment under these conditions. This paper describes a new Gouging Abrasion method and apparatus for testing abrasivity of rocks under high-stress gouging/sliding impact wear. A Gouging Abrasion Index (Gi) is introduced, which can be used for prediction and assessment of component life expectancy and efficiency of mineral processing and materials handling equipment. Experimental data from Gouging Abrasion testing of numerous Australian rock types are presented. It is suggested that the results of Gi testing can be used for wear rate predictions for a variety of mineral processing and materials handling equipment working under high-stress gouging/sliding impact abrasion conditions. 相似文献
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S. P. Singh 《Geotechnical and Geological Engineering》1989,7(3):257-266
Conclusions The application of mechanical methods for rapid excavation requires more detailed and precise knowledge of the site, but there is no single parameter which can provide a comprehensive measure for the selection and performance of a tunnel boring machine.The machinability index proposed in this paper is based on four different parameters which influence the performance of a tunnelling machine and are widely accepted by the engineers and geologists. In order to develop a comprehensive measure regarding the borability of rocks,in situ conditions must be evaluated. The machinability index coupled with thein situ information would facilitate judicious decisions regarding the application and selection of tunnel boring machines.The geological conditions and rock characteristics cannot be controlled but their knowledge can prevent costly mistakes in equipment selection and assist in identifying alternative excavation systems, therefore a thorough site investigation can substantially reduce the economic and technical risks associated with tunnelling and mine development. 相似文献
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岩石的研磨性是钻井过程中钻头的磨损预测及优化的重要因素。为了预测钻遇地层岩石的研磨性,建立了钻井过程中PDC复合片的磨损计算模型,从而得到了岩石研磨性的预测方法。首先,通过复合片与地层之间的受力分析并结合岩石的破碎条件,建立了不同钻压条件下地层对复合片的作用力计算模型。根据石英含量的概率密度分布情况,获得了岩石中参与磨损的颗粒与复合片底部的真实作用力。然后,根据PDC复合片磨损的几何原理,建立了地层对钻头复合片的磨损计算模型。通过室内实验对模型进行修正,分析了岩石各种属性对复合片磨损的影响规律,揭示了各参数影响复合片磨损的主次顺序依次为:弹性模量>石英含量>内摩擦角>表面粗糙度>泊松比>内聚力。基于该磨损模型建立了岩石研磨性评价指标,对制定了岩石研磨性的分级标准具有一定的借鉴意义。 相似文献
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人造金刚石钻进中岩石研磨性的试验研究 总被引:1,自引:0,他引:1
本文据金刚石钻进过程的特点,提出了用模拟方法确定岩石的研磨性。利用专门的装置与材料。笔者研究了人造金刚石和钻头胎体的磨损机理、岩石和金刚石之间的动摩擦系数及其变化范围;在统一的操作规程下测定了19种岩石的研磨性。除分析了岩石的物理机械性质、研磨性和破岩参数之间的关系外,还提出了岩石按研磨性分级表;并初步探讨了胎体耐磨性与岩石研磨性之间的适应性及其判别式。 相似文献
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岩石的主要物理机械性质与岩石可钻性相关性的试验研究 总被引:1,自引:0,他引:1
本试验研究共钻进78种岩石,803块岩样,完成868个钻孔,总进尺82m左右。测试了岩石的压入硬度、研磨性、塑性系数、声学特性等性质,共取得各种测试数据8570个.在BCM—Ⅲ型微机上,对其数据进行了数理统计,建立了以岩石压入硬度、研磨性和塑性系数为主因子的岩石可钻性预测方程,方程的预估精度达80%左右。 相似文献
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岩石磨蚀性的试验研究 总被引:1,自引:0,他引:1
岩石磨蚀性的试验研究在探矿工程以及其它采掘工程中都具有重要的意义。 本文详细地叙述了一种测定岩石磨蚀性的方法。作者利用钻铣磨床改装而成的装置,在规定的条件下(轴压力15kgf,转速400r/min,时间10min),测定了25种岩石的磨蚀性指标;同时,还测定了在这些岩石中一字形钎头的磨次进尺、岩石的石英含量及粒度、岩石的压入硬度;并借助微机进行了数据处理与回归分析,对它们之间的相关性进行了评价。 实验与分析结果表明:利用简单易行的仪器来模拟工具在破碎岩石的过程中受到磨损的实质,在规定的条件下,测量标准物的磨损量,在数值上表征岩石的磨蚀性的方法是可行的;一字形钎头的磨次进尺是由岩石的磨蚀性和压入硬度共同决定的;影响岩石磨蚀性的主要因素是岩石的石英含量及粒度,岩石的压入硬度。 相似文献
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