A
Alireza Kashani
Researcher at University of New South Wales
Publications - 47
Citations - 5785
Alireza Kashani is an academic researcher from University of New South Wales. The author has contributed to research in topics: Portland cement & Computer science. The author has an hindex of 16, co-authored 33 publications receiving 3160 citations. Previous affiliations of Alireza Kashani include Amirkabir University of Technology & University of Melbourne.
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Alkali activated slag foams: The effect of the alkali reaction on foam characteristics
TL;DR: The effect of the alkali activation reaction on the characteristics of slag-based foams made by the mechanical foaming technique is investigated in this paper, where a change in the reaction is shown to affect the pore size distribution, pore homogeneity, density and properties of the inorganic foams.
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A sustainable application of recycled tyre crumbs as insulator in lightweight cellular concrete
TL;DR: In this article, the effects of different RTC contents on compressive strength, porosity, thermal conductivity, sound insulation and water permeability of lightweight cellular concrete (LCC) were investigated.
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Glass waste versus sand as aggregates: The characteristics of the evolving geopolymer binders
TL;DR: In this article, the authors compared the performance of the growing geopolymer gels with glass and sand as aggregates and showed that the higher extent of alkalinity that glass particles introduce to the system at the very beginning has an important impact on the hydration stage of the reaction.
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Sustainable one-part geopolymer foams with glass fines versus sand as aggregates
TL;DR: In this article, glass fines are used as a replacement for fine sand in manufacturing geopolymer foams and thermal and mechanical properties of the two systems with different densities are investigated.
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3D meso-scale modelling of foamed concrete based on X-ray Computed Tomography
TL;DR: In this article, a meso-scale simulation based on X-ray computed tomography (XCT) images is conducted to simulate the behavior of foamed concrete and failure development inside samples is successfully captured by the XCT scan.