A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Geopolymers in construction - recent developments
https://orcid.org/0000-0001-8953-3599
https://orcid.org/0000-0002-6315-7967
Highlights Geopolymers are alkali-activated alumino-silicate binders. Precursors, alkali concentration and curing affect material properties of geopolymers. Microstructure of geopolymers depends on the source materials and synthesis parameters. Geopolymers have a positive environmental impact compared to conventional cement. Geopolymers have various applications in the construction industry.
Abstract Geopolymers are inorganic materials that result from the alkali activation of aluminosilicates. The aluminosilicates source materials can either occur naturally (e.g. kaolin, metakaolin, rice husk ash, volcanic rock powders) or are produced by industrial processes (e.g. fly-ash, blast furnace slag). While the potential application of geopolymers as construction materials (e.g. concrete manufacturing and soil stabilization) has been studied in the past, their widespread use has been limited. This is mainly because the technology is still relatively new and research in this field is still emerging. However, the use of geopolymers in lieu of conventional binders (e.g. cement and lime) has substantial environmental advantages particularly in terms of the energy expended for their production and greenhouse gas emissions. The current trend to enhance sustainability practices in the construction industry has recently driven research in this area. This paper aims to offer a comprehensive overview of past studies on geopolymers synthesised from various precursors, the factors affecting geopolymerisation process, their microstructural characteristics as well as mechanical, chemical, thermal and environmental properties of geopolymers. Further, recent developments associated with the use of geopolymers as construction materials in civil engineering applications have also been discussed. Research findings show that geopolymers can achieve comparable or superior performance to conventional binders and/or concrete in terms of shear strength and durability but with a reduced environmental footprint.
Geopolymers in construction - recent developments
https://orcid.org/0000-0001-8953-3599
https://orcid.org/0000-0002-6315-7967
Highlights Geopolymers are alkali-activated alumino-silicate binders. Precursors, alkali concentration and curing affect material properties of geopolymers. Microstructure of geopolymers depends on the source materials and synthesis parameters. Geopolymers have a positive environmental impact compared to conventional cement. Geopolymers have various applications in the construction industry.
Abstract Geopolymers are inorganic materials that result from the alkali activation of aluminosilicates. The aluminosilicates source materials can either occur naturally (e.g. kaolin, metakaolin, rice husk ash, volcanic rock powders) or are produced by industrial processes (e.g. fly-ash, blast furnace slag). While the potential application of geopolymers as construction materials (e.g. concrete manufacturing and soil stabilization) has been studied in the past, their widespread use has been limited. This is mainly because the technology is still relatively new and research in this field is still emerging. However, the use of geopolymers in lieu of conventional binders (e.g. cement and lime) has substantial environmental advantages particularly in terms of the energy expended for their production and greenhouse gas emissions. The current trend to enhance sustainability practices in the construction industry has recently driven research in this area. This paper aims to offer a comprehensive overview of past studies on geopolymers synthesised from various precursors, the factors affecting geopolymerisation process, their microstructural characteristics as well as mechanical, chemical, thermal and environmental properties of geopolymers. Further, recent developments associated with the use of geopolymers as construction materials in civil engineering applications have also been discussed. Research findings show that geopolymers can achieve comparable or superior performance to conventional binders and/or concrete in terms of shear strength and durability but with a reduced environmental footprint.
Geopolymers in construction - recent developments
https://orcid.org/0000-0001-8953-3599
https://orcid.org/0000-0002-6315-7967
Highlights Geopolymers are alkali-activated alumino-silicate binders. Precursors, alkali concentration and curing affect material properties of geopolymers. Microstructure of geopolymers depends on the source materials and synthesis parameters. Geopolymers have a positive environmental impact compared to conventional cement. Geopolymers have various applications in the construction industry.
Abstract Geopolymers are inorganic materials that result from the alkali activation of aluminosilicates. The aluminosilicates source materials can either occur naturally (e.g. kaolin, metakaolin, rice husk ash, volcanic rock powders) or are produced by industrial processes (e.g. fly-ash, blast furnace slag). While the potential application of geopolymers as construction materials (e.g. concrete manufacturing and soil stabilization) has been studied in the past, their widespread use has been limited. This is mainly because the technology is still relatively new and research in this field is still emerging. However, the use of geopolymers in lieu of conventional binders (e.g. cement and lime) has substantial environmental advantages particularly in terms of the energy expended for their production and greenhouse gas emissions. The current trend to enhance sustainability practices in the construction industry has recently driven research in this area. This paper aims to offer a comprehensive overview of past studies on geopolymers synthesised from various precursors, the factors affecting geopolymerisation process, their microstructural characteristics as well as mechanical, chemical, thermal and environmental properties of geopolymers. Further, recent developments associated with the use of geopolymers as construction materials in civil engineering applications have also been discussed. Research findings show that geopolymers can achieve comparable or superior performance to conventional binders and/or concrete in terms of shear strength and durability but with a reduced environmental footprint.
Geopolymers in construction - recent developments
Nawaz, Mohsin (author) / Heitor, Ana (author) / Sivakumar, Muttucumaru (author)
2020-08-01
Article (Journal)
Electronic Resource
English
Geopolymers , Construction material , Concrete manufacturing , Soil stabilization , Sustainability , OPC , Ordinary Portland Cement , GPM , Geopolymer mortars , PCM , Portland cement mortars , SEM , Scanning electron microscope , EDS , Energy dispersive spectroscopy , XRD , X-ray diffraction , GGBFS , Ground granulated blast furnace slag , UCS , Unconfined compressive strength , SCG , Solar curing grey , SCB , Solar curing black , NaOH , Sodium hydroxide , Na<inf>2</inf>SiO<inf>3</inf> , Sodium silicate , CSH , Calcium silicate hydrate , HLAASC , High limestone alkali activated slag cement , GHG , Greenhouse gas , LCA , Life cycle assessment , PVA , Polyvinyl alcohol , N/S , Nitrate to bisulphide , RM , Red mud , DB eq. , Dichlorobenzene equivalent
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