High-temperature stability of ambient-cured one-part alkali-activated materials incorporating graphene nanoplatelets for thermal energy storage-Reference-Cited by-同舟云学术

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High-temperature stability of ambient-cured one-part alkali-activated materials incorporating graphene nanoplatelets for thermal energy storage

Published:2024-04 Issue: Volume:18 Page:100447
ISSN:2666-1659
Container-title:Developments in the Built Environment
language:en
Short-container-title:Developments in the Built Environment

Author:

Tran Nghia P.^ORCID,Nguyen Tuan N.^ORCID,Black Jay R.,Ngo Tuan D.

Funder

The University of Melbourne

RMIT University

Cooperative Research Australia

Publisher

Elsevier BV

Reference113 articles.

1. Effects of elevated temperatures on the thermal behavior and mechanical performance of fly ash geopolymer paste, mortar and lightweight concrete;Abdulkareem;Construct. Build. Mater.,2014

2. The effect of pristine graphene on the mechanical properties of geopolymer mortar;Abiodun;Sustainability,2023

3. Mechanical performance and optimization of high-volume fly ash concrete containing plastic wastes and graphene nanoplatelets using response surface methodology;Adamu;Construct. Build. Mater.,2021

4. Enhancing the thermal stability of alkali-activated Fe-rich fayalite slag-based mortars by incorporating ladle and blast furnace slags: physical, mechanical and structural changes;Adediran;Cement Concr. Res.,2023

5. Investigation on performance enhancement of fly ash-GGBFS based graphene geopolymer concrete;Bellum;J. Build. Eng.,2020

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1. Mechanical strength and durability of GBFS geopolymer modified with metakaolin and functionalized beta-silicon carbide whiskers;Construction and Building Materials;2024-10

2. Manufacturing and performance of eco-efficient cementitious blocks for thermal cycling in thermal energy storage;Case Studies in Thermal Engineering;2024-09

3. On The Potential Use of Copper-Modified Geopolymer Incorporating Lead-Smelter Slag for Thermal Energy Storage;SolarPACES Conference Proceedings;2024-08-28

4. Study on the high‐temperature resistance of tungsten tailings‐based alkali‐activated materials by pressure forming;International Journal of Applied Ceramic Technology;2024-07-19

5. Steel slag aggregate low-cement concrete: Engineering performance, microstructure and sustainability;Construction and Building Materials;2024-07

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