Advanced composite sandwich structure design for energy absorption applications: Blast protection and crashworthiness
This paper describes an experimental investigation on the response of composite sandwich structures with tubular inserts to quasi-static compression. The performance parameters, namely the peak load, absorbed crash energy, specific energy absorption; average crushing load and crush force efficiency...
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my.uniten.dspace-302652023-12-29T15:46:05Z Advanced composite sandwich structure design for energy absorption applications: Blast protection and crashworthiness Tarlochan F. Ramesh S. Harpreet S. 9045273600 41061958200 57192876644 A. Foams A. Glass fibres B. Delamination D. Mechanical testing Crashworthiness Crushing Energy absorption Epoxy resins Glass fibers Mechanical testing Polystyrenes Sandwich structures Advanced composites Blast protection Composite sandwich structure Composite sandwiches Crush force efficiency Crushing load Design variables Energy absorbers Energy absorption capability Experimental investigations High-energy absorption Peak load Performance parameters Polymer composite Polystyrene foams Quasi-static compression Specific energy absorption Design This paper describes an experimental investigation on the response of composite sandwich structures with tubular inserts to quasi-static compression. The performance parameters, namely the peak load, absorbed crash energy, specific energy absorption; average crushing load and crush force efficiency were evaluated. The composite sandwich specimens were fabricated from glass fiber, polystyrene foam and epoxy resin. The primary mode of failure observed was progressive crushing with the composites exhibiting high energy absorption capabilities and high crushes force efficiency. The mechanism of progressive crushing of the sandwich structures and its relation to the energy absorption capabilities was deliberated. Furthermore, a statistical analysis was performed to investigate the effects of the design variables and also to determine if there were interactions between these variables. Such information is vital in the design of polymer composite sandwich structures as energy absorbers. � 2012 Elsevier Ltd. All rights reserved. Final 2023-12-29T07:46:05Z 2023-12-29T07:46:05Z 2012 Article 10.1016/j.compositesb.2012.02.025 2-s2.0-84861191142 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84861191142&doi=10.1016%2fj.compositesb.2012.02.025&partnerID=40&md5=e205cce49ea02bb1303ef41c3e7d53d7 https://irepository.uniten.edu.my/handle/123456789/30265 43 5 2198 2208 Scopus |
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A. Foams A. Glass fibres B. Delamination D. Mechanical testing Crashworthiness Crushing Energy absorption Epoxy resins Glass fibers Mechanical testing Polystyrenes Sandwich structures Advanced composites Blast protection Composite sandwich structure Composite sandwiches Crush force efficiency Crushing load Design variables Energy absorbers Energy absorption capability Experimental investigations High-energy absorption Peak load Performance parameters Polymer composite Polystyrene foams Quasi-static compression Specific energy absorption Design |
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A. Foams A. Glass fibres B. Delamination D. Mechanical testing Crashworthiness Crushing Energy absorption Epoxy resins Glass fibers Mechanical testing Polystyrenes Sandwich structures Advanced composites Blast protection Composite sandwich structure Composite sandwiches Crush force efficiency Crushing load Design variables Energy absorbers Energy absorption capability Experimental investigations High-energy absorption Peak load Performance parameters Polymer composite Polystyrene foams Quasi-static compression Specific energy absorption Design Tarlochan F. Ramesh S. Harpreet S. Advanced composite sandwich structure design for energy absorption applications: Blast protection and crashworthiness |
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This paper describes an experimental investigation on the response of composite sandwich structures with tubular inserts to quasi-static compression. The performance parameters, namely the peak load, absorbed crash energy, specific energy absorption; average crushing load and crush force efficiency were evaluated. The composite sandwich specimens were fabricated from glass fiber, polystyrene foam and epoxy resin. The primary mode of failure observed was progressive crushing with the composites exhibiting high energy absorption capabilities and high crushes force efficiency. The mechanism of progressive crushing of the sandwich structures and its relation to the energy absorption capabilities was deliberated. Furthermore, a statistical analysis was performed to investigate the effects of the design variables and also to determine if there were interactions between these variables. Such information is vital in the design of polymer composite sandwich structures as energy absorbers. � 2012 Elsevier Ltd. All rights reserved. |
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9045273600 |
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9045273600 Tarlochan F. Ramesh S. Harpreet S. |
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Article |
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Tarlochan F. Ramesh S. Harpreet S. |
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Tarlochan F. |
title |
Advanced composite sandwich structure design for energy absorption applications: Blast protection and crashworthiness |
title_short |
Advanced composite sandwich structure design for energy absorption applications: Blast protection and crashworthiness |
title_full |
Advanced composite sandwich structure design for energy absorption applications: Blast protection and crashworthiness |
title_fullStr |
Advanced composite sandwich structure design for energy absorption applications: Blast protection and crashworthiness |
title_full_unstemmed |
Advanced composite sandwich structure design for energy absorption applications: Blast protection and crashworthiness |
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advanced composite sandwich structure design for energy absorption applications: blast protection and crashworthiness |
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2023 |
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1806427353508741120 |
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13.222552 |