Matches in SemOpenAlex for { <https://semopenalex.org/work/W4285992169> ?p ?o ?g. }
- W4285992169 endingPage "128484" @default.
- W4285992169 startingPage "128484" @default.
- W4285992169 abstract "In terms of sustainability, alternative binders have been sought despite the environmental effects of CO2 gas released as a result of cement production. In accordance with this purpose, geopolymer binders produced by activating aluminosilicate materials with alkalis are one of these alternatives. This study aimed to produce one-part geopolymer concrete from aluminosilicate-based perlite, which is rich in SiO2, and to improve its mechanical properties by adding nanomaterials. The effect of using nano-Al2O3 and nano-CaO at 1 %, 2 %, and 3 % by weight instead of perlite on the properties of geopolymer concrete under different curing conditions (heat + ambient and heat + water curing) was investigated with SEM (scanning electron microscope), XRD (X-ray Diffraction), t-Plot/BJH (specific surface area and pore size distribution) and FT-IR (Fourier Transform Infrared Spectroscopy) tests, the compressive strength, flexural strength, length change. As a result, the applicability of the one-part mixture method in the production of perlite-based geopolymer concrete has been determined. Nano-Al2O3 was found to be effective in perlite-based geopolymer concrete in terms of compressive strength and the optimum curing condition was heat + ambient curing. The addition of nanomaterials especially prevented crack and pore formation and according to t-Plot/BJH analysis, were more effective in lowering the number of macropores generated in geopolymer concrete, but increased the number of micropores. Moreover, the nanoparticles had no discernible effect on the geopolymerization process of perlite-based geopolymer concrete." @default.
- W4285992169 created "2022-07-21" @default.
- W4285992169 creator A5030240744 @default.
- W4285992169 creator A5083175735 @default.
- W4285992169 date "2022-09-01" @default.
- W4285992169 modified "2023-10-14" @default.
- W4285992169 title "The influence of nano-CaO and nano-Al2O3 and curing conditions on perlite based geopolymer concrete produced by the one-part mixing method" @default.
- W4285992169 cites W1964946787 @default.
- W4285992169 cites W1966457008 @default.
- W4285992169 cites W1967450736 @default.
- W4285992169 cites W1968120560 @default.
- W4285992169 cites W1968232881 @default.
- W4285992169 cites W1970109838 @default.
- W4285992169 cites W1983507455 @default.
- W4285992169 cites W1993933837 @default.
- W4285992169 cites W1998045126 @default.
- W4285992169 cites W1999376184 @default.
- W4285992169 cites W2001198588 @default.
- W4285992169 cites W2010700455 @default.
- W4285992169 cites W2013430555 @default.
- W4285992169 cites W2016046630 @default.
- W4285992169 cites W2022223001 @default.
- W4285992169 cites W2022922515 @default.
- W4285992169 cites W2033445337 @default.
- W4285992169 cites W2034074870 @default.
- W4285992169 cites W2034852426 @default.
- W4285992169 cites W2044346710 @default.
- W4285992169 cites W2047756601 @default.
- W4285992169 cites W2048462448 @default.
- W4285992169 cites W2054612040 @default.
- W4285992169 cites W2056397869 @default.
- W4285992169 cites W2056713636 @default.
- W4285992169 cites W2057795054 @default.
- W4285992169 cites W2057826965 @default.
- W4285992169 cites W2071689849 @default.
- W4285992169 cites W2076548409 @default.
- W4285992169 cites W2085857575 @default.
- W4285992169 cites W2092083373 @default.
- W4285992169 cites W2092130262 @default.
- W4285992169 cites W2132458036 @default.
- W4285992169 cites W2143363401 @default.
- W4285992169 cites W2160699256 @default.
- W4285992169 cites W2170624898 @default.
- W4285992169 cites W2194196610 @default.
- W4285992169 cites W2203592990 @default.
- W4285992169 cites W2205755554 @default.
- W4285992169 cites W2331628843 @default.
- W4285992169 cites W2337838176 @default.
- W4285992169 cites W2531215386 @default.
- W4285992169 cites W2531980578 @default.
- W4285992169 cites W2546535885 @default.
- W4285992169 cites W2598522378 @default.
- W4285992169 cites W2604318659 @default.
- W4285992169 cites W2613847440 @default.
- W4285992169 cites W2664852705 @default.
- W4285992169 cites W2751334518 @default.
- W4285992169 cites W2767007735 @default.
- W4285992169 cites W2768077267 @default.
- W4285992169 cites W2781776392 @default.
- W4285992169 cites W2793708044 @default.
- W4285992169 cites W2793877085 @default.
- W4285992169 cites W2797210006 @default.
- W4285992169 cites W2810102166 @default.
- W4285992169 cites W2894800403 @default.
- W4285992169 cites W2897072765 @default.
- W4285992169 cites W2902823287 @default.
- W4285992169 cites W2938626414 @default.
- W4285992169 cites W2962929724 @default.
- W4285992169 cites W2968468748 @default.
- W4285992169 cites W2973007085 @default.
- W4285992169 cites W2984993644 @default.
- W4285992169 cites W2988183263 @default.
- W4285992169 cites W2996255907 @default.
- W4285992169 cites W3016699277 @default.
- W4285992169 cites W3017657831 @default.
- W4285992169 cites W3020299543 @default.
- W4285992169 cites W3039522023 @default.
- W4285992169 cites W3047192442 @default.
- W4285992169 cites W3048444833 @default.
- W4285992169 cites W3048996149 @default.
- W4285992169 cites W3081499495 @default.
- W4285992169 cites W3088011528 @default.
- W4285992169 cites W3089348003 @default.
- W4285992169 cites W3089821074 @default.
- W4285992169 cites W3098695356 @default.
- W4285992169 cites W3101274343 @default.
- W4285992169 cites W3118665740 @default.
- W4285992169 cites W3120364641 @default.
- W4285992169 cites W3134401787 @default.
- W4285992169 cites W3164501613 @default.
- W4285992169 cites W3172901296 @default.
- W4285992169 cites W3197593662 @default.
- W4285992169 cites W3210654228 @default.
- W4285992169 cites W756648341 @default.
- W4285992169 doi "https://doi.org/10.1016/j.conbuildmat.2022.128484" @default.
- W4285992169 hasPublicationYear "2022" @default.
- W4285992169 type Work @default.
- W4285992169 citedByCount "10" @default.