SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313593812> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W4313593812 endingPage "108083" @default.
W4313593812 startingPage "108083" @default.
W4313593812 abstract "The choice for a proper external trigger and fiber hybridization configuration has a significant impact on the stability of the crushing process and material cost for composite structures in crashworthiness. However, there is still a lack of a thorough understanding of impact characteristics and energy-absorption mechanisms. This study explores the axial crushing responses and crashworthiness characteristics of energy-absorption composite structures by both experiment and finite element analysis. A series of dynamic crushing tests were conducted for three types of composite tubes under the same crushing velocity of 1.944 m/s, including carbon fiber reinforced polymers (CFRP), glass fiber reinforced polymers (GFRP), and CFRP/GFRP inter-layer hybridized composites. The configuration of the composite tubes includes: (i) CFRP composite tubes with a single 45° chamfer trigger (T1), a combined 45 °chamfer and outward-folding crush-cap (T2), and a combined 45 °chamfer and outward-folding crush-cap with a cavity (T3); (ii) GFRP and CFRP/GFRP hybrid composite tube with T2 trigger. A stacked-shell model was developed to investigate the energy-absorption mechanisms. Three distinct failure modes have been found for composite tubes with T1, T2, and T3 triggers, separately, named splaying, outward-folding, and outward-folding with local buckling. The CFRP composite tubes with the T1 trigger exhibited the best crashworthiness performance, while the T2 trigger reduced the friction interaction between the splaying fronds and the platen, causing a 67% reduction of specific energy absorption (SEA)/mean crushing force (MCF). In the meantime, the T3 trigger boosted 101.9% of SEA/MCF from T2. With the same T2 trigger, the GFRP composite tube showed a better crashworthiness performance than the CFRP composite tube: 35.5% reduction of initial peak crushing force (IPCF), 68.6% and 98.5% increment of MCF and SEA respectively. It has been found that the outermost layers dominated the energy absorption behavior, which matches well with the observation that replacing the central CFRP plies with GFRP ones results in similar crashworthiness characteristics between CFRP and CFRP/GFRP hybrid composite tubes. The findings in this study contribute to providing practical guidelines for the crashworthiness design of heavy duty composite structures, such as railway vehicles." @default.
W4313593812 created "2023-01-06" @default.
W4313593812 creator A5014793577 @default.
W4313593812 creator A5029523095 @default.
W4313593812 creator A5032656940 @default.
W4313593812 creator A5038916687 @default.
W4313593812 creator A5046552500 @default.
W4313593812 creator A5071453770 @default.
W4313593812 creator A5075301454 @default.
W4313593812 creator A5083467483 @default.
W4313593812 date "2023-04-01" @default.
W4313593812 modified "2023-10-13" @default.
W4313593812 title "Dynamic axial crushing behaviors of circular composite tubes with different reinforcing fibers and triggers" @default.
W4313593812 cites W1977885297 @default.
W4313593812 cites W1984364652 @default.
W4313593812 cites W1993511626 @default.
W4313593812 cites W1996495271 @default.
W4313593812 cites W2018223849 @default.
W4313593812 cites W2031869958 @default.
W4313593812 cites W2037396824 @default.
W4313593812 cites W2041505089 @default.
W4313593812 cites W2041730405 @default.
W4313593812 cites W2054854300 @default.
W4313593812 cites W2063718540 @default.
W4313593812 cites W2083325190 @default.
W4313593812 cites W2090902327 @default.
W4313593812 cites W2191322278 @default.
W4313593812 cites W2288098601 @default.
W4313593812 cites W236229035 @default.
W4313593812 cites W2411550920 @default.
W4313593812 cites W2507721963 @default.
W4313593812 cites W2516043502 @default.
W4313593812 cites W2592022046 @default.
W4313593812 cites W2618476946 @default.
W4313593812 cites W2725695207 @default.
W4313593812 cites W2745784284 @default.
W4313593812 cites W2791129153 @default.
W4313593812 cites W2797650147 @default.
W4313593812 cites W2801896701 @default.
W4313593812 cites W2893686247 @default.
W4313593812 cites W2937967390 @default.
W4313593812 cites W2942524853 @default.
W4313593812 cites W2954568984 @default.
W4313593812 cites W2956630899 @default.
W4313593812 cites W2966350788 @default.
W4313593812 cites W2970485939 @default.
W4313593812 cites W2976316341 @default.
W4313593812 cites W2997488714 @default.
W4313593812 cites W3002027627 @default.
W4313593812 cites W3007748808 @default.
W4313593812 cites W3014859816 @default.
W4313593812 cites W3023983789 @default.
W4313593812 cites W3024144276 @default.
W4313593812 cites W3025465854 @default.
W4313593812 cites W3036380716 @default.
W4313593812 cites W3039506828 @default.
W4313593812 cites W3045393279 @default.
W4313593812 cites W3047631905 @default.
W4313593812 cites W3092255477 @default.
W4313593812 cites W3097660413 @default.
W4313593812 cites W3112087198 @default.
W4313593812 cites W3138163130 @default.
W4313593812 cites W3216430273 @default.
W4313593812 cites W4200282881 @default.
W4313593812 cites W4205630902 @default.
W4313593812 cites W4205714737 @default.
W4313593812 cites W4224725446 @default.
W4313593812 cites W4229065503 @default.
W4313593812 cites W4281772233 @default.
W4313593812 cites W4286559515 @default.
W4313593812 cites W4289333292 @default.
W4313593812 cites W4292489403 @default.
W4313593812 cites W4298342458 @default.
W4313593812 cites W4308522415 @default.
W4313593812 cites W866869827 @default.
W4313593812 doi "https://doi.org/10.1016/j.ijmecsci.2022.108083" @default.
W4313593812 hasPublicationYear "2023" @default.
W4313593812 type Work @default.
W4313593812 citedByCount "6" @default.
W4313593812 countsByYear W43135938122023 @default.
W4313593812 crossrefType "journal-article" @default.
W4313593812 hasAuthorship W4313593812A5014793577 @default.
W4313593812 hasAuthorship W4313593812A5029523095 @default.
W4313593812 hasAuthorship W4313593812A5032656940 @default.
W4313593812 hasAuthorship W4313593812A5038916687 @default.
W4313593812 hasAuthorship W4313593812A5046552500 @default.
W4313593812 hasAuthorship W4313593812A5071453770 @default.
W4313593812 hasAuthorship W4313593812A5075301454 @default.
W4313593812 hasAuthorship W4313593812A5083467483 @default.
W4313593812 hasConcept C104779481 @default.
W4313593812 hasConcept C127413603 @default.
W4313593812 hasConcept C135628077 @default.
W4313593812 hasConcept C159985019 @default.
W4313593812 hasConcept C192562407 @default.
W4313593812 hasConcept C2524010 @default.
W4313593812 hasConcept C2776313386 @default.
W4313593812 hasConcept C2776545253 @default.
W4313593812 hasConcept C2777551473 @default.