Attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: Optimizing impact energy and particle size
In this study, we investigated the breakage behavior of a bed of olivine sand particles using a drop-weight impact test, with drop weights of various shapes (oval, cube, and sphere). An Attainable Region (AR) technique, which is a model-free and equipment-independent technique, was then applied to o...
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my.uniten.dspace-251192023-05-29T16:06:51Z Attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: Optimizing impact energy and particle size Emmanuel E. Anggraini V. Syamsir A. Paul S.C. Asadi A. 57207694647 35072537800 57195320482 57934489700 26530788200 In this study, we investigated the breakage behavior of a bed of olivine sand particles using a drop-weight impact test, with drop weights of various shapes (oval, cube, and sphere). An Attainable Region (AR) technique, which is a model-free and equipment-independent technique, was then applied to optimize the impact energy during the breakage process and also to get particles in defined particle size classes. The findings revealed that the different drop weights produce products within the three different particle size classes (feed, intermediate, and fine). A higher mass fraction of materials in the fine-sized class (?75 �m) was obtained when the spherical drop weight was used relative to the cubic and oval drop weights. The drop height was found to have a significant influence on the breakage process. The AR technique proved to be a practical approach for optimizing impact energy and particle size during the breakage of a bed of olivine particles, with potential application in sustainable soil stabilization projects. � 2020 by the authors. Licensee MDPI, Basel, Switzerland. Final 2023-05-29T08:06:51Z 2023-05-29T08:06:51Z 2020 Article 10.3390/min10121096 2-s2.0-85097396777 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85097396777&doi=10.3390%2fmin10121096&partnerID=40&md5=40925dcee9a5ae4456a584944e46d5da https://irepository.uniten.edu.my/handle/123456789/25119 10 12 1096 1 17 All Open Access, Gold, Green MDPI AG Scopus |
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In this study, we investigated the breakage behavior of a bed of olivine sand particles using a drop-weight impact test, with drop weights of various shapes (oval, cube, and sphere). An Attainable Region (AR) technique, which is a model-free and equipment-independent technique, was then applied to optimize the impact energy during the breakage process and also to get particles in defined particle size classes. The findings revealed that the different drop weights produce products within the three different particle size classes (feed, intermediate, and fine). A higher mass fraction of materials in the fine-sized class (?75 �m) was obtained when the spherical drop weight was used relative to the cubic and oval drop weights. The drop height was found to have a significant influence on the breakage process. The AR technique proved to be a practical approach for optimizing impact energy and particle size during the breakage of a bed of olivine particles, with potential application in sustainable soil stabilization projects. � 2020 by the authors. Licensee MDPI, Basel, Switzerland. |
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57207694647 |
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57207694647 Emmanuel E. Anggraini V. Syamsir A. Paul S.C. Asadi A. |
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Emmanuel E. Anggraini V. Syamsir A. Paul S.C. Asadi A. |
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Emmanuel E. Anggraini V. Syamsir A. Paul S.C. Asadi A. Attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: Optimizing impact energy and particle size |
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Emmanuel E. |
title |
Attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: Optimizing impact energy and particle size |
title_short |
Attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: Optimizing impact energy and particle size |
title_full |
Attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: Optimizing impact energy and particle size |
title_fullStr |
Attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: Optimizing impact energy and particle size |
title_full_unstemmed |
Attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: Optimizing impact energy and particle size |
title_sort |
attainable region approach in analyzing the breakage behavior of a bed of olivine sand particles: optimizing impact energy and particle size |
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MDPI AG |
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2023 |
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1806428077706706944 |