SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2908431372> ?p ?o ?g. }

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

W2908431372 endingPage "650" @default.
W2908431372 startingPage "639" @default.
W2908431372 abstract "Abstract In this paper, we investigate thermomechanical characteristics of silica-mineralized nitrogen-doped carbon nanotube (SC-NCNT)-reinforced poly (methyl methacrylate) (PMMA) nanocomposites for the first time by molecular dynamics simulations. An in-situ mineralization algorithm is employed for the mineralization of the silica layer where the thickness is determined from an atomic stress calculation. Young's modulus, shear modulus, and yield strength of SC-NCNT/PMMA systems are compared with those of nitrogen-doped carbon nanotube(NCNT)/PMMA and carbon nanotube (CNT)/PMMA systems at various filler weight percentage (wt%). Compared with the reinforcing effect of CNTs, SC-NCNT fillers revealed a superior reinforcing effect in the transverse direction. Additionally, the glass transition temperature ( T g ) of nanocomposites at different filler wt% is studied. Both the SC-NCNT/PMMA and the CNT/PMMA system show a T g decrease according to the filler wt% where the former decreases only 6 K and the latter decreases 31 K at 3 wt%. The enhanced thermomechanical properties of the SC-NCNT/PMMA system are attributed to the improved interfacial interaction between the silica layer and the PMMA matrix. Since thermomechanical properties of SC-NCNT/PMMA nanocomposites have not been studied since the discovery of the SC-NCNT filler, our simulation study can be a good guide for experimental researches on the thermomechanical behavior of mineralized CNTs." @default.
W2908431372 created "2019-01-11" @default.
W2908431372 creator A5021734388 @default.
W2908431372 creator A5042623019 @default.
W2908431372 creator A5056226186 @default.
W2908431372 date "2019-03-01" @default.
W2908431372 modified "2023-09-29" @default.
W2908431372 title "Thermomechanical properties of mineralized nitrogen-doped carbon nanotube/polymer nanocomposites by molecular dynamics simulations" @default.
W2908431372 cites W1965812476 @default.
W2908431372 cites W1970486977 @default.
W2908431372 cites W1970552416 @default.
W2908431372 cites W1971272620 @default.
W2908431372 cites W1975351586 @default.
W2908431372 cites W1990561264 @default.
W2908431372 cites W1994098282 @default.
W2908431372 cites W1998302266 @default.
W2908431372 cites W1999469559 @default.
W2908431372 cites W2009901571 @default.
W2908431372 cites W2014874949 @default.
W2908431372 cites W2018858346 @default.
W2908431372 cites W2019796844 @default.
W2908431372 cites W2023565824 @default.
W2908431372 cites W2028341770 @default.
W2908431372 cites W2029176084 @default.
W2908431372 cites W2030514486 @default.
W2908431372 cites W2033133507 @default.
W2908431372 cites W2042848670 @default.
W2908431372 cites W2044604590 @default.
W2908431372 cites W2047968138 @default.
W2908431372 cites W2048145538 @default.
W2908431372 cites W2054295948 @default.
W2908431372 cites W2056700441 @default.
W2908431372 cites W2057269023 @default.
W2908431372 cites W2058727769 @default.
W2908431372 cites W2060112563 @default.
W2908431372 cites W2063392865 @default.
W2908431372 cites W2072976471 @default.
W2908431372 cites W2082878170 @default.
W2908431372 cites W2085085804 @default.
W2908431372 cites W2088313072 @default.
W2908431372 cites W2090119564 @default.
W2908431372 cites W2091858186 @default.
W2908431372 cites W2096188874 @default.
W2908431372 cites W2097795101 @default.
W2908431372 cites W2102640469 @default.
W2908431372 cites W2130454476 @default.
W2908431372 cites W2140846282 @default.
W2908431372 cites W2145173973 @default.
W2908431372 cites W2146504247 @default.
W2908431372 cites W2148944640 @default.
W2908431372 cites W2153417513 @default.
W2908431372 cites W2154449781 @default.
W2908431372 cites W2156060142 @default.
W2908431372 cites W2171264277 @default.
W2908431372 cites W2274494712 @default.
W2908431372 cites W2314950533 @default.
W2908431372 cites W2314996627 @default.
W2908431372 cites W2318248156 @default.
W2908431372 cites W2318941464 @default.
W2908431372 cites W2321485758 @default.
W2908431372 cites W2331046673 @default.
W2908431372 cites W2331941863 @default.
W2908431372 cites W2414535298 @default.
W2908431372 cites W2592266897 @default.
W2908431372 cites W2741560586 @default.
W2908431372 cites W2752135392 @default.
W2908431372 cites W2766333334 @default.
W2908431372 cites W2770830732 @default.
W2908431372 cites W2802926731 @default.
W2908431372 cites W2897720255 @default.
W2908431372 doi "https://doi.org/10.1016/j.compositesb.2019.01.002" @default.
W2908431372 hasPublicationYear "2019" @default.
W2908431372 type Work @default.
W2908431372 sameAs 2908431372 @default.
W2908431372 citedByCount "38" @default.
W2908431372 countsByYear W29084313722019 @default.
W2908431372 countsByYear W29084313722020 @default.
W2908431372 countsByYear W29084313722021 @default.
W2908431372 countsByYear W29084313722022 @default.
W2908431372 countsByYear W29084313722023 @default.
W2908431372 crossrefType "journal-article" @default.
W2908431372 hasAuthorship W2908431372A5021734388 @default.
W2908431372 hasAuthorship W2908431372A5042623019 @default.
W2908431372 hasAuthorship W2908431372A5056226186 @default.
W2908431372 hasConcept C127413603 @default.
W2908431372 hasConcept C147597530 @default.
W2908431372 hasConcept C159467904 @default.
W2908431372 hasConcept C159985019 @default.
W2908431372 hasConcept C171250308 @default.
W2908431372 hasConcept C178790620 @default.
W2908431372 hasConcept C185592680 @default.
W2908431372 hasConcept C192562407 @default.
W2908431372 hasConcept C2777619693 @default.
W2908431372 hasConcept C3231350 @default.
W2908431372 hasConcept C42360764 @default.
W2908431372 hasConcept C49040817 @default.
W2908431372 hasConcept C513720949 @default.
W2908431372 hasConcept C521977710 @default.