SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386475785> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W4386475785 endingPage "110248" @default.
W4386475785 startingPage "110248" @default.
W4386475785 abstract "Numerous developments in additive manufacturing have endowed triply periodic minimal surface (TPMS) structures with excellent mechanical properties, providing possibilities for the wide application prospects of such scaffolds in repairing bone defects. However, current studies mainly focus on the basic mechanical and biomedical properties of TMPS with relatively large scale and low precision made from conventional materials such as stainless powder. Therefore, challenges exist in manufacturing ceramic-based TPMS bone scaffolds that stratify the precision requirements for human bones at the micron scale and further investigate their dynamic mechanical properties. Herein, we successfully design and fabricate two TPMS scaffolds named TPMS-B and TPMS-C with microstructures similar to that of human bone utilizing advanced 3D-printing technology. The experiments reveal that TPMS-C outperforms conventional porous scaffold (Normal-A) and TPMS-B for certain parameters such as specific strength and specific energy absorption. Moreover, the numerical simulation analysis illustrates that structural asymmetry and discontinuous boundaries are the main causes of completely destructive disparities in TPMS-C when exposed to given loads. Meanwhile, the cytocompatibility and osteogenic differentiation of the three scaffolds are verified. The objective of this work is to reveal the mechanical properties and failure analysis of novel 3D-printing materials that can be used to fabricate advanced TPMS bone scaffolds to treat bone defects." @default.
W4386475785 created "2023-09-07" @default.
W4386475785 creator A5027552790 @default.
W4386475785 creator A5035336413 @default.
W4386475785 creator A5049444068 @default.
W4386475785 creator A5058617585 @default.
W4386475785 creator A5068753273 @default.
W4386475785 creator A5086400683 @default.
W4386475785 date "2023-10-01" @default.
W4386475785 modified "2023-10-18" @default.
W4386475785 title "Mechanical properties and failure analysis of 3D-printing micron-scale ceramic-based triply periodic minimal surface scaffolds under quasi-static-compression and low-speed impact loads" @default.
W4386475785 cites W1875296650 @default.
W4386475785 cites W2003518784 @default.
W4386475785 cites W2234231219 @default.
W4386475785 cites W2295734814 @default.
W4386475785 cites W2518533172 @default.
W4386475785 cites W2527225495 @default.
W4386475785 cites W2588035853 @default.
W4386475785 cites W2604849113 @default.
W4386475785 cites W2744483079 @default.
W4386475785 cites W2752085020 @default.
W4386475785 cites W2755275555 @default.
W4386475785 cites W2766106893 @default.
W4386475785 cites W2773321737 @default.
W4386475785 cites W2783781571 @default.
W4386475785 cites W2790288170 @default.
W4386475785 cites W2794892227 @default.
W4386475785 cites W2804302078 @default.
W4386475785 cites W2808204114 @default.
W4386475785 cites W2886301568 @default.
W4386475785 cites W2899968839 @default.
W4386475785 cites W2901353022 @default.
W4386475785 cites W2906669807 @default.
W4386475785 cites W2907594102 @default.
W4386475785 cites W2911788112 @default.
W4386475785 cites W2913267393 @default.
W4386475785 cites W2915463801 @default.
W4386475785 cites W2916239681 @default.
W4386475785 cites W2916330452 @default.
W4386475785 cites W2938312145 @default.
W4386475785 cites W2945306888 @default.
W4386475785 cites W2945696851 @default.
W4386475785 cites W2946193969 @default.
W4386475785 cites W2954382400 @default.
W4386475785 cites W2955696789 @default.
W4386475785 cites W2963648277 @default.
W4386475785 cites W2969283704 @default.
W4386475785 cites W2983182677 @default.
W4386475785 cites W2989572300 @default.
W4386475785 cites W2994347444 @default.
W4386475785 cites W2998359026 @default.
W4386475785 cites W3005651662 @default.
W4386475785 cites W3005916545 @default.
W4386475785 cites W3007073056 @default.
W4386475785 cites W3008644096 @default.
W4386475785 cites W3012179697 @default.
W4386475785 cites W3015626564 @default.
W4386475785 cites W3021738118 @default.
W4386475785 cites W3031796179 @default.
W4386475785 cites W3031963408 @default.
W4386475785 cites W3033047854 @default.
W4386475785 cites W3036051579 @default.
W4386475785 cites W3045538293 @default.
W4386475785 cites W3046929176 @default.
W4386475785 cites W3086050160 @default.
W4386475785 cites W3090865243 @default.
W4386475785 cites W3092002087 @default.
W4386475785 cites W3092176108 @default.
W4386475785 cites W3120885014 @default.
W4386475785 cites W3134362774 @default.
W4386475785 cites W3136943301 @default.
W4386475785 cites W3158925499 @default.
W4386475785 cites W3163303346 @default.
W4386475785 cites W3165546842 @default.
W4386475785 cites W3196914397 @default.
W4386475785 cites W3202551339 @default.
W4386475785 cites W3210359597 @default.
W4386475785 cites W3214359201 @default.
W4386475785 cites W3217620012 @default.
W4386475785 cites W4206136577 @default.
W4386475785 cites W4206216514 @default.
W4386475785 cites W4206706385 @default.
W4386475785 cites W4210665296 @default.
W4386475785 cites W4210940352 @default.
W4386475785 cites W4214699798 @default.
W4386475785 cites W4224237631 @default.
W4386475785 cites W4281621031 @default.
W4386475785 cites W4283034811 @default.
W4386475785 cites W4290705353 @default.
W4386475785 cites W4293217174 @default.
W4386475785 cites W4296009405 @default.
W4386475785 cites W4304080413 @default.
W4386475785 cites W4313463437 @default.
W4386475785 cites W4313481539 @default.
W4386475785 cites W4318274825 @default.
W4386475785 cites W4319456559 @default.
W4386475785 cites W4320882953 @default.
W4386475785 doi "https://doi.org/10.1016/j.compscitech.2023.110248" @default.