SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4285403816> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W4285403816 endingPage "104677" @default.
W4285403816 startingPage "104677" @default.
W4285403816 abstract "The tensile behaviour of engineered cementitious composites (ECC) is highly dependent on their microstructure characteristics. To date, the strain-hardening behaviour of printed ECC in relation to its microstructure is not yet fully understood. This study presents a systematic investigation on the macroscopic mechanical properties of normal and printed ECC with various polyethylene (PE) fibre lengths (6 and 12 mm) in relation to their microstructural features in terms of pore structure characteristics, fibre orientation and fibre dispersion through a series of mechanical tests and X-ray computed tomography (CT) and backscattered electron (BSE) image acquisition, processing and analysis. Results indicate that it is desirable to use block specimens for mould-casting fabrication as contrast to printed ECC samples. The printed ECC containing 1.5 vol% 6 mm and 0.5 vol% 12 mm PE fibres by extrusion-based 3D printing exhibits unique tensile ductility of over 5% and average crack width of less than 100 μm. Regarding pore structure, normal ECC has a higher probability of large pores (over 1 mm3) than printed ECC, which would increase the risk of damage localization and lead to a significant variation in tensile properties. Besides, normal ECC with thickness of 30 mm and printed ECC possess a similar fist cracking strength as indicated by similar pore size and fracture toughness. Compared to normal ECC, printed ECC has a more uniform dispersion of PE fibres, the orientation of which is more perpendicular to the loading direction, resulting in a higher average tensile strength and strain capacity than normal ECC." @default.
W4285403816 created "2022-07-14" @default.
W4285403816 creator A5013519405 @default.
W4285403816 creator A5034046996 @default.
W4285403816 creator A5037083281 @default.
W4285403816 creator A5065681651 @default.
W4285403816 creator A5084775819 @default.
W4285403816 date "2022-10-01" @default.
W4285403816 modified "2023-10-18" @default.
W4285403816 title "Relationship between microstructure and strain-hardening behaviour of 3D printed engineered cementitious composites" @default.
W4285403816 cites W1512244616 @default.
W4285403816 cites W1968548193 @default.
W4285403816 cites W1973400733 @default.
W4285403816 cites W1975938757 @default.
W4285403816 cites W1995568404 @default.
W4285403816 cites W1995862333 @default.
W4285403816 cites W2003916469 @default.
W4285403816 cites W2014404727 @default.
W4285403816 cites W2017287146 @default.
W4285403816 cites W2020104202 @default.
W4285403816 cites W2033275825 @default.
W4285403816 cites W2056813526 @default.
W4285403816 cites W2061427712 @default.
W4285403816 cites W2073243395 @default.
W4285403816 cites W2078063103 @default.
W4285403816 cites W2082256667 @default.
W4285403816 cites W2093311332 @default.
W4285403816 cites W2108750515 @default.
W4285403816 cites W2114768170 @default.
W4285403816 cites W2128874459 @default.
W4285403816 cites W2151126121 @default.
W4285403816 cites W2344513838 @default.
W4285403816 cites W2440875234 @default.
W4285403816 cites W2586438887 @default.
W4285403816 cites W2769899141 @default.
W4285403816 cites W2769989783 @default.
W4285403816 cites W2783391291 @default.
W4285403816 cites W2789280231 @default.
W4285403816 cites W2791279482 @default.
W4285403816 cites W2803383290 @default.
W4285403816 cites W2804724795 @default.
W4285403816 cites W2884539422 @default.
W4285403816 cites W2885108928 @default.
W4285403816 cites W2890741434 @default.
W4285403816 cites W2912055253 @default.
W4285403816 cites W2921177911 @default.
W4285403816 cites W2922163831 @default.
W4285403816 cites W2940185759 @default.
W4285403816 cites W2940442868 @default.
W4285403816 cites W2953836444 @default.
W4285403816 cites W2957050254 @default.
W4285403816 cites W2965144800 @default.
W4285403816 cites W2968748494 @default.
W4285403816 cites W2969857520 @default.
W4285403816 cites W2987247305 @default.
W4285403816 cites W2997003310 @default.
W4285403816 cites W2999156578 @default.
W4285403816 cites W2999605557 @default.
W4285403816 cites W3003220135 @default.
W4285403816 cites W3010160980 @default.
W4285403816 cites W3011882138 @default.
W4285403816 cites W3012533326 @default.
W4285403816 cites W3012977463 @default.
W4285403816 cites W3015953235 @default.
W4285403816 cites W3028231439 @default.
W4285403816 cites W3033370110 @default.
W4285403816 cites W3034489340 @default.
W4285403816 cites W3035942768 @default.
W4285403816 cites W3036830803 @default.
W4285403816 cites W3043607208 @default.
W4285403816 cites W3045918227 @default.
W4285403816 cites W3046714567 @default.
W4285403816 cites W3085287258 @default.
W4285403816 cites W3112884474 @default.
W4285403816 cites W3118857544 @default.
W4285403816 cites W3120669616 @default.
W4285403816 cites W3125569382 @default.
W4285403816 cites W3125931905 @default.
W4285403816 cites W3128181561 @default.
W4285403816 cites W3128895471 @default.
W4285403816 cites W3129418432 @default.
W4285403816 cites W3130820175 @default.
W4285403816 cites W3141560355 @default.
W4285403816 cites W3163121610 @default.
W4285403816 cites W3173553037 @default.
W4285403816 cites W3175553408 @default.
W4285403816 cites W3180039471 @default.
W4285403816 cites W3184364652 @default.
W4285403816 cites W3190188159 @default.
W4285403816 cites W3203626787 @default.
W4285403816 cites W3205479060 @default.
W4285403816 cites W3206434307 @default.
W4285403816 cites W4224144894 @default.
W4285403816 cites W644687824 @default.
W4285403816 doi "https://doi.org/10.1016/j.cemconcomp.2022.104677" @default.
W4285403816 hasPublicationYear "2022" @default.
W4285403816 type Work @default.
W4285403816 citedByCount "11" @default.