DEM simulation of mechanical behavior in one-dimensional compression of crushable ceramic pebble bed

DEM simulation of mechanical behavior in one-dimensional compression of crushable ceramic pebble bed

•An annular cylinder container was built to hold the crushable Li4SiO4 particles.•One-dimensional compression was performed by moving the upper wall at a constant velocity.•The presence of crushed particles could soften the pebble bed.•The impact of the crushing ratio on the macro response of the pe...

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Veröffentlicht in:Fusion engineering and design 2021-07, Vol.168, p.112606, Article 112606
Hauptverfasser: Wang, Jian, Lei, M.Z., Xu, S.L., Yang, H., Zhao, P.H., Xu, K., Song, Y.T.
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Sprache:eng
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Ceramic pebble bed
Coefficient of friction
Coordination numbers
Crushed particle
Crushing
Discrete element method
Mechanical behavior
Mechanical properties
One-dimensional compression
Strain
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container_end_page
container_issue
container_start_page 112606
container_title Fusion engineering and design
container_volume 168
creator Wang, Jian
Lei, M.Z.
Xu, S.L.
Yang, H.
Zhao, P.H.
Xu, K.
Song, Y.T.
description •An annular cylinder container was built to hold the crushable Li4SiO4 particles.•One-dimensional compression was performed by moving the upper wall at a constant velocity.•The presence of crushed particles could soften the pebble bed.•The impact of the crushing ratio on the macro response of the pebble bed was shown and discussed.•The effects of the coefficient of friction and restitution under different crushing ratios were investigated. The mechanical behavior in one-dimensional compression of a crushable ceramic pebble bed for the fusion reactor, which is under different crushing ratio assumptions (0% - 2%), was numerically investigated by the discrete element method (DEM) simulation. The crushed particle was modeled by a reduction of the particle radius, therefore, the instantaneous decrease of the local stress could be produced. To guarantee the mass conservation of the particles in the pebble bed, the sub-particle insertion process was conducted. Please note that this paper mainly deals with the post of failure of the particles, hence the pebble failure process was not captured. The results showed that the crushed particles could make the pebble bed softer, and with the same Li4SiO4 pebble bed strain, the bed stress decreased as the crushing ratio grew larger. The impact of the crushing ratio on the radial and axial local packing factor was limited on the oscillating amplitude without affecting the oscillating width. Besides, the effects of the coefficient of friction and restitution under different crushing ratios were investigated. At last, the analysis of changes in the average coordination number with the bed strain under different crushing ratios was performed.
doi_str_mv 10.1016/j.fusengdes.2021.112606
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The mechanical behavior in one-dimensional compression of a crushable ceramic pebble bed for the fusion reactor, which is under different crushing ratio assumptions (0% - 2%), was numerically investigated by the discrete element method (DEM) simulation. The crushed particle was modeled by a reduction of the particle radius, therefore, the instantaneous decrease of the local stress could be produced. To guarantee the mass conservation of the particles in the pebble bed, the sub-particle insertion process was conducted. Please note that this paper mainly deals with the post of failure of the particles, hence the pebble failure process was not captured. The results showed that the crushed particles could make the pebble bed softer, and with the same Li4SiO4 pebble bed strain, the bed stress decreased as the crushing ratio grew larger. The impact of the crushing ratio on the radial and axial local packing factor was limited on the oscillating amplitude without affecting the oscillating width. Besides, the effects of the coefficient of friction and restitution under different crushing ratios were investigated. At last, the analysis of changes in the average coordination number with the bed strain under different crushing ratios was performed.</description><identifier>ISSN: 0920-3796</identifier><identifier>EISSN: 1873-7196</identifier><identifier>DOI: 10.1016/j.fusengdes.2021.112606</identifier><language>eng</language><publisher>Amsterdam: Elsevier B.V</publisher><subject>Ceramic pebble bed ; Coefficient of friction ; Coordination numbers ; Crushed particle ; Crushing ; Discrete element method ; Mechanical behavior ; Mechanical properties ; One-dimensional compression ; Strain</subject><ispartof>Fusion engineering and design, 2021-07, Vol.168, p.112606, Article 112606</ispartof><rights>2021 Elsevier B.V.</rights><rights>Copyright Elsevier Science Ltd. 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The mechanical behavior in one-dimensional compression of a crushable ceramic pebble bed for the fusion reactor, which is under different crushing ratio assumptions (0% - 2%), was numerically investigated by the discrete element method (DEM) simulation. The crushed particle was modeled by a reduction of the particle radius, therefore, the instantaneous decrease of the local stress could be produced. To guarantee the mass conservation of the particles in the pebble bed, the sub-particle insertion process was conducted. Please note that this paper mainly deals with the post of failure of the particles, hence the pebble failure process was not captured. The results showed that the crushed particles could make the pebble bed softer, and with the same Li4SiO4 pebble bed strain, the bed stress decreased as the crushing ratio grew larger. The impact of the crushing ratio on the radial and axial local packing factor was limited on the oscillating amplitude without affecting the oscillating width. Besides, the effects of the coefficient of friction and restitution under different crushing ratios were investigated. 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The mechanical behavior in one-dimensional compression of a crushable ceramic pebble bed for the fusion reactor, which is under different crushing ratio assumptions (0% - 2%), was numerically investigated by the discrete element method (DEM) simulation. The crushed particle was modeled by a reduction of the particle radius, therefore, the instantaneous decrease of the local stress could be produced. To guarantee the mass conservation of the particles in the pebble bed, the sub-particle insertion process was conducted. Please note that this paper mainly deals with the post of failure of the particles, hence the pebble failure process was not captured. The results showed that the crushed particles could make the pebble bed softer, and with the same Li4SiO4 pebble bed strain, the bed stress decreased as the crushing ratio grew larger. The impact of the crushing ratio on the radial and axial local packing factor was limited on the oscillating amplitude without affecting the oscillating width. Besides, the effects of the coefficient of friction and restitution under different crushing ratios were investigated. At last, the analysis of changes in the average coordination number with the bed strain under different crushing ratios was performed.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.fusengdes.2021.112606</doi><orcidid>https://orcid.org/0000-0002-8436-1000</orcidid></addata></record>
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subjects Ceramic pebble bed
Coefficient of friction
Coordination numbers
Crushed particle
Crushing
Discrete element method
Mechanical behavior
Mechanical properties
One-dimensional compression
Strain
title DEM simulation of mechanical behavior in one-dimensional compression of crushable ceramic pebble bed
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