SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4384997606> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W4384997606 endingPage "110989" @default.
W4384997606 startingPage "110989" @default.
W4384997606 abstract "Triply periodic minimal surface (TPMS) has many excellent properties, such as stable energy absorption, a high specific strength, a large surface area, etc. The functional multi-stage design and research of TPMS lattices were carried out to improve the mechanical performance. The deformation modes and curves of three uniform TPMS lattices (Primitive, Gyroid, and Diamond) and their hybrid lattices were analyzed by quasi-static compression experiments and numerical simulations. Based on the uniform TPMS lattice, hybrid sheet TPMS lattices were designed to realize the multi-stage energy absorption (multi-stage platform) and multi-stage protection integrated porous structure. The two-stage energy absorption characteristics of hybrid sheet TPMS lattices were systematically studied, and the effects of hybrid TPMS composition, width of the transition layer, relative weight, and hybridization method on the multi-stage energy absorption were obtained. The results indicated that the Gyroid–Diamond hybrid lattice performed the best, with the specific energy absorption (SEA) increasing by 30.48% and 0.51%, and the yield stress decreasing by 14.01% and 30.07%, respectively, as compared to the single TPMS lattice. Width of the transition layer has little effect on the two-stage energy absorption. The relative weight will shorten or widen the length of the two-stage platform stress. The hybridization method shows that the sequence hybridization along the loading direction based on the TPMS lattice yield strength is the best arrangement to achieve the effect of multi-stage energy absorption. Finally, the three-stage energy absorption characteristics of hybrid Primitive–Gyroid–Diamond lattices are further studied. The results show that with the increase of layers of TPMS lattices, the fluctuation of the multi-stage curve and the yield stress will increase." @default.
W4384997606 created "2023-07-22" @default.
W4384997606 creator A5000601220 @default.
W4384997606 creator A5009746309 @default.
W4384997606 creator A5020697507 @default.
W4384997606 creator A5059523842 @default.
W4384997606 creator A5066775790 @default.
W4384997606 creator A5086326013 @default.
W4384997606 date "2023-09-01" @default.
W4384997606 modified "2023-10-01" @default.
W4384997606 title "A study of multi-stage energy absorption characteristics of hybrid sheet TPMS lattices" @default.
W4384997606 cites W1987483495 @default.
W4384997606 cites W1998078162 @default.
W4384997606 cites W2027741194 @default.
W4384997606 cites W2185372913 @default.
W4384997606 cites W2415645089 @default.
W4384997606 cites W2591948890 @default.
W4384997606 cites W2772980410 @default.
W4384997606 cites W2785811993 @default.
W4384997606 cites W2790304041 @default.
W4384997606 cites W2914225127 @default.
W4384997606 cites W2930200018 @default.
W4384997606 cites W2945572399 @default.
W4384997606 cites W2969862932 @default.
W4384997606 cites W2985704737 @default.
W4384997606 cites W2987979082 @default.
W4384997606 cites W2996382020 @default.
W4384997606 cites W2999502409 @default.
W4384997606 cites W3002730896 @default.
W4384997606 cites W3011564689 @default.
W4384997606 cites W3011946309 @default.
W4384997606 cites W3023701366 @default.
W4384997606 cites W3041637262 @default.
W4384997606 cites W3112464412 @default.
W4384997606 cites W3114808983 @default.
W4384997606 cites W3118122905 @default.
W4384997606 cites W3128410433 @default.
W4384997606 cites W3134362774 @default.
W4384997606 cites W3154462936 @default.
W4384997606 cites W3169014115 @default.
W4384997606 cites W3196914397 @default.
W4384997606 cites W4200306038 @default.
W4384997606 cites W4207006767 @default.
W4384997606 cites W4210355589 @default.
W4384997606 cites W4224105644 @default.
W4384997606 cites W4224136756 @default.
W4384997606 cites W4225287674 @default.
W4384997606 cites W4281479534 @default.
W4384997606 cites W4281491186 @default.
W4384997606 cites W4281662969 @default.
W4384997606 cites W4281671459 @default.
W4384997606 cites W4281843375 @default.
W4384997606 cites W4288045825 @default.
W4384997606 cites W4289314236 @default.
W4384997606 cites W4292541916 @default.
W4384997606 cites W4293229391 @default.
W4384997606 cites W4296969326 @default.
W4384997606 cites W4306181910 @default.
W4384997606 cites W4306359295 @default.
W4384997606 cites W4307905405 @default.
W4384997606 cites W4309279412 @default.
W4384997606 cites W4309567308 @default.
W4384997606 cites W4309941936 @default.
W4384997606 cites W4313547357 @default.
W4384997606 cites W4313561512 @default.
W4384997606 cites W4316171082 @default.
W4384997606 cites W4317512997 @default.
W4384997606 doi "https://doi.org/10.1016/j.tws.2023.110989" @default.
W4384997606 hasPublicationYear "2023" @default.
W4384997606 type Work @default.
W4384997606 citedByCount "1" @default.
W4384997606 countsByYear W43849976062023 @default.
W4384997606 crossrefType "journal-article" @default.
W4384997606 hasAuthorship W4384997606A5000601220 @default.
W4384997606 hasAuthorship W4384997606A5009746309 @default.
W4384997606 hasAuthorship W4384997606A5020697507 @default.
W4384997606 hasAuthorship W4384997606A5059523842 @default.
W4384997606 hasAuthorship W4384997606A5066775790 @default.
W4384997606 hasAuthorship W4384997606A5086326013 @default.
W4384997606 hasConcept C121332964 @default.
W4384997606 hasConcept C125287762 @default.
W4384997606 hasConcept C15920480 @default.
W4384997606 hasConcept C159985019 @default.
W4384997606 hasConcept C192562407 @default.
W4384997606 hasConcept C207003234 @default.
W4384997606 hasConcept C24890656 @default.
W4384997606 hasConcept C2524010 @default.
W4384997606 hasConcept C2776921476 @default.
W4384997606 hasConcept C2781204021 @default.
W4384997606 hasConcept C30707913 @default.
W4384997606 hasConcept C33923547 @default.
W4384997606 hasConcept C521977710 @default.
W4384997606 hasConceptScore W4384997606C121332964 @default.
W4384997606 hasConceptScore W4384997606C125287762 @default.
W4384997606 hasConceptScore W4384997606C15920480 @default.
W4384997606 hasConceptScore W4384997606C159985019 @default.
W4384997606 hasConceptScore W4384997606C192562407 @default.
W4384997606 hasConceptScore W4384997606C207003234 @default.