Introduction of Adhesive Force to DEM Simulation and Application to Fracture of Fragile Powder Materials
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概要
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We introduce an adhesive powder model based on the discrete element method (DEM). By using this model, we investigate how fragile substances consisting of a lot of adhesive powders, powder materials, are fractured. In the powder material, the powders have a weak attraction and are stuck to each other by adhesion. Thus, the powder materials are easily broken by the external force. We investigate the crack morphology of the fractured powder materials by changing two parameters expressing the strength of the adhesive force χ and width of the powder size distribution Δ. The fracture pattern is changed from cracking to crumbling as Δ increases for every χ value. Interestingly, we find that this change seems to start at a particular point of Δ from observations of the fractal dimension of the cracks Df versus Δ. This result may suggest that the morphological change of the cracks may be related with a transition in the granular systems such as the glass transition.
著者
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Matsui Toshiki
Department Of Material Chemistry Faculty Of Enginnering Kyoto University
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Shirasaki Ryoen
Department Of Physics Faculty Of Education Yokohama National University
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Tsurusaki Kyoichi
Chemical Engineering Division Kanagawa Industrial Technology Center
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Nakamura Hiroaki
National Inst. Fusion Sci. Toki Jpn
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TSURUSAKI Kyoichi
Chemical Technology Division, Kanagawa Industrial Technology Center, 705-1, Shimoimaizumi, Ebina-shi 243-0435, Japan
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MATSUI Toshiki
Department of Physics, Faculty of Engineering, Yokohama National University, 79-1 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, Japan
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