Abstract
The use of asymmetrical disc tools for the mining of hard and very hard rocks is a promising direction for developing mechanical mining methods. A significant obstacle in developing mining methods with the use of asymmetric disc tools is the lack of adequate computational methods. A deep understanding of rock–tool interaction can develop industrial applications of asymmetric disc tools significantly. The fundamental problem in designing work systems with asymmetric disc tools is the lack of adequate analytical models to identify tool loads during the mining process. One reasonable approach is to use computer simulation. The purpose of the research was to develop a simulation model of rock cutting using an asymmetrical disc tool and then evaluate the developed model. In the article, the Discrete-Element Method (DEM) in LS-Dyna was adopted to simulate rock cutting with asymmetrical disc tools. Numerical tests were conducted by pushing the disc into a rock sample at a given distance from the sample edge until the material was detached entirely. Two types of rock samples were used in the simulation tests: concrete and sandstone. The independent variables in the study were the disc diameter and the cut spacing. To validate the simulation model, analogous laboratory tests were carried out. The article presents a comparison of the results of simulation and laboratory tests. The given comparison showed good accordance LS-Dyna model with the experimental studies. The proposed test results can be input data for developing simulation models on a larger scale. Thus, it will be possible to consider the complex kinematics of the dynamics of the rock-mining process with disc tools using the DEM simulation.
Highlights
One of the most interesting directions in hard rock mining is related to the use of asymmetric disc cutters in mechanical excavation systems
Exemplary results of simulation tests of rock cutting by asymmetric disc tool are shown in Figs. 12, 13, 14 and15
The results presented in this paper show a great potential of Discrete-Element Method (DEM) modelling in the aspect of load analysis of asymmetric disc tools
Summary
One of the most interesting directions in hard rock mining is related to the use of asymmetric disc cutters in mechanical excavation systems. Two basic techniques of mechanical rock mining can be distinguished by means of disc tools, namely excavation with static pressure and undercutting (Fig. 1). The use of disc tools allows, compared to the standard mining method, to reduce the energy consumption of the mining process and leads to the reduction of dust generation associated with mining. Due to the significant reduction of friction forces in the rock-mining process, the abrasion wear of cutting tools is increasing. Modelling and research in applying asymmetrical disc tools in mechanical excavation systems are one of the primary research directions implemented at the Department of Machinery Engineering and Transport at AGH UST in.
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