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Bibliografia publikacji pracowników
Państwowej Szkoły Wyższej w Białej Podlaskiej

Baza tworzona przez Bibliotekę Akademii Bialskiej im. Jana Pawła II.


Zapytanie: MICROSTRUCTURE
Liczba odnalezionych rekordów: 3



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Nr opisu: 00^c009999.000^d009859.000202420242024Microstructure, durability and surface free energy of lightweight aggregate modification of sanit00000484080000000116AOartykuł oryginalny naukowyPUBLIKACJAPEŁNA PUBLIKACJAAAartykuł w czasopiśmie z IF (wykaz MNiSW)AFILIACJA PODANAENGhttps://www.sciencedirect.com/science/article/pii/S2352710224012932100^a2352-7102^bQ^iX^jXY^kQ010360^a003^b003^c2024-12-20, 14:03^d2024-12-20, 14:04^e3018848836^f3018848835^aMicrostructure, durability and surface free energy of lightweight aggregate modification of sanitary ceramic wastes and sewage sludge^aJournal of Building Engineering^a2024^bVol. 93^darticle number 109725^a2352-7102^a2023/2024^a10.1016/j.jobe.2024.109725^aAndrzejuk, Wojciech^cy^afreezing-thawing resistance^aBezpieczne dla środowiska, sztuczne kruszywo wytworzone z zastosowaniem osadów ściekowych oraz materiałów odpadowych przemysłu ceramicznego^bMNiSW w ramach programu Inkubator Innowacyjności 4.0^d2022/2023^aThe research on the durability and physical properties of lightweight aggregate (LWA) with addition of sanitary ceramic wastes and sewage sludge was presented in the paper. The following characteristics of LWA were defined: contact angle (CA), absorptivity, roughness, surface free energy (SFE) before and after the UV radiation durability test, thermal conductivity coefficient ?, compressive strength, freezing-thawing, salt resistance and others. Open porosity was examined using computed tomography, it reached 20.987 % for the ceramic waste aggregate, and 7.023 % for the reference aggregate. The aggregate with the largest amount of ceramic waste (20 %) and sewage sludge (10 %) has the highest average roughness (Ra), which is 14 % higher than the Ra of the reference aggregate. The contact angle decreased by almost 4 times and samples had higher absorptivity (19.994 %) when 10 % sewage sludge and 20 % sanitary ceramic were added to the aggregate. The sanitary ceramic waste application may enhance the poor durability characteristics of lightweight aggregate with/without sewage sludge. Replacing natural loess with sanitary ceramic waste material brings benefits both in terms of respect for natural resources and also improves the properties of lightweight aggregates.^alightweight aggregate^amicrostructure^aroughness^asanitary ceramic wastes^asurface free-energy
Autorzy: .
Tytuł czasopisma:
Rodzaj dokumentu: 009992.300 ; 009859.000, 009999.000, 009859.000202420242024Microstructure, durability and surface free energy of lightweight aggregate modification of sanit00000484080000000116AOartykuł oryginalny naukowyPUBLI
Charakterystyka merytoryczna:
Język publikacji: , ności 4.0^d2022/2023^aThe research on the durability and physical properties of lightweight aggregate (LWA) with addition of sanitary ceramic wastes and sewage sludge was presented in the paper. The following characteristics of LWA were defined: contact angle (CA), absorptivity, roughness, surface free energy (SFE) before and after the UV radiation durability test, thermal conductivity coefficient ?, compressive strength, freezing-thawing, salt resistance and others. Open porosity was examined using computed tomography, it reached 20.987 % for the ceramic waste aggregate, and 7.023 % for the reference aggregate. The aggregate with the largest amount of ceramic waste (20 %) and sewage sludge (10 %) has the highest average roughness (Ra), which is 14 % higher than the Ra of the reference aggregate. The contact angle decreased by almost 4 times and samples had higher absorptivity (19.994 %) when 10 % sewage sludge and 20 % sanitary ceramic were added to the aggregate. The sanitary ceramic waste application may enhance the poor durability characteristics of lightweight aggregate with/without sewage sludge. Replacing natural loess with sanitary ceramic waste material brings benefits both in terms of respect for natural resources and also improves the properties of lightweight aggregates.^alightweight aggregate^amicrostructure^aroughness^asanitary ceramic wastes^asurface free-energy
Wskaźnik Impact Factor ISI:
Punktacja ministerstwa: ty and surface free energy of lightweight aggregate modification of sanit00000484080000000116AOartykuł oryginalny naukowyPUBLIKACJAPEŁNA PUBLIKACJAAAartykuł w czasopiśmie z IF (wykaz MNiSW)AFILIACJA PODANAENGhttps://www.sciencedirect.com/science/article/pii/S2352710224012932100^a2352-7102^bQ^iX^jXY^kQ010360^a003^b003^c2024-12-20, 14:03^d2024-12-20, 14:04^e3018848836^f3018848835^aMicrostructure, durability and surface free energy of lightweight aggregate modification of sanitary ceramic wastes and sewage sludge^aJournal of Building Engineering^a2024^bVol. 93^darticle number 109725^a2352-7102^a2023/2024^a10.1016/j.jobe.2024.109725^aAndrzejuk, Wojciech^cy^afreezing-thawing resistance^aBezpieczne dla środowiska, sztuczne kruszywo wytworzone z zastosowaniem osadów ściekowych oraz materiałów odpadowych przemysłu ceramicznego^bMNiSW w ramach programu Inkubator Innowacyjności 4.0^d2022/2023^aThe research on the durability and physical properties of lightweight aggregate (LWA) with addition of sanitary ceramic wastes and sewage sludge was presented in the paper. The following characteristics of LWA were defined: contact angle (CA), absorptivity, roughness, surface free energy (SFE) before and after the UV radiation durability test, thermal conductivity coefficient ?, compressive strength, freezing-thawing, salt resistance and others. Open porosity was examined using computed tomography, it reached 20.987 % for the ceramic waste aggregate, and 7.023 % for the reference aggregate. The aggregate with the largest amount of ceramic waste (20 %) and sewage sludge (10 %) has the highest average roughness (Ra), which is 14 % higher than the Ra of the reference aggregate. The contact angle decreased by almost 4 times and samples had higher absorptivity (19.994 %) when 10 % sewage sludge and 20 % sanitary ceramic were added to the aggregate. The sanitary ceramic waste application may enhance the poor durability characteristics of lightweight aggregate with/without sewage sludge. Replacing natural loess with sanitary ceramic waste material brings benefits both in terms of respect for natural resources and also improves the properties of lightweight aggregates.^alightweight aggregate^amicrostructure^aroughness^asanitary ceramic wastes^asurface free-energy
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Nr opisu: CJAPEŁNA PUBLIKACJAAAartykuł w czasopiśmie z IF (wykaz MNiSW)AFILIACJA PODANAENGPRACA RECENZOWANA100^a0950-0618^bQ^e1879-0526^iX^jXY^kQ004336^a003^b003^c2019-10-11, 11:50^d2020-07-03, 14:30^e3520939089^f3424018809^aEffect of cellulose nanofibrils and nanocrystals on physical properties of concrete^aConstruction and Building Materials^a2019^bVol. 223^dp. 1-11^a0950-0618^b1879-0526^a2019/2020^a10.1016/j.conbuildmat.2019.06.145^aJarosz-Hadam, Monika^cy^aconcrete^aKopia dostepna w Sekcji Bibliometrii.^bdziałalność statutowa WNET PSW^c2018-WNET/KNT/ZB/1^aThe study on the physical properties and durability of concrete with admixture cellulose nanofibrils (ACNF) and cellulose nanocrystals (CCNC) was presented in the paper. The following characteristics of the concrete were defined: absorptivity, density, apparent density, open porosity, contact angle (CA), surface free energy (SFE), compressive strength, flexural tensile strength, freezing-thawing resistance. The use of ACNF and CCNC results in different wetting and adhesion properties of concrete. The highest CCNC addition yielded a concrete with the lowest CA with water and the highest SFE values that evidenced the increased adhesion properties and wettability. The microstructure of concrete with ACNF and CCNC and distribution of cracks and pores within them were investigated by scanning electron microscope (SEM). CCNC improves the freezing-thawing resistance.^ananocellulose^afreezing-thawing resistance^asurface free energy^amicrostructure
Autorzy: , .
Tytuł czasopisma:
Charakterystyka merytoryczna:
Język publikacji:
Wskaźnik Impact Factor ISI:
Punktacja ministerstwa:
Praca recenzowana
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Autorzy: , Politechnika Lubelska Barnat-Hunek, Danutagranodioritedolomitemicroroughnessmicrostructure.
Tytuł czasopisma:
Charakterystyka formalna: the aggregates as well as to identify the basic chemical components.^aBarnat-Hunek, Danuta^bPolitechnika Lubelska^cn^agranodiorite^adolomite^amicroroughness^amicrostructure
Charakterystyka wg MNiSW:
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