Geopolymer binders have been shown to be a potential green replacement for Ordinary Portland Cement (OPC) in concrete manufacture. This paper presents an experimental study into the behaviour of geopolymer concrete in both its wet and hardened states using Class F fly ash. The experimental program included 15 mix designs to investigate the influence of water-to-binder and superplasticiser-to-binder ratios on the workability and strength of fly ash-based geopolymer concrete. The results show that the addition of naphthalene sulphonate polymer-based superplasticiser has little to no influence on workability and a detrimental effect on strength. Furthermore, the indirect tensile strength, flexural tensile strength and elastic modulus of fly as...
Geopolymer concrete (GPC) are representing the most promising green and eco-friendly alternative to ...
One of the most important challenges for the cement industry is to find sustainable solutions to mit...
The research for the new environmental friendly construction material that will match the durability...
Geopolymer concrete produced using 100% fly ash as the main binder is a sustainable construction mat...
Use of fly ash based geopolymer as an alternative binder can help reduce CO 2 emission of concrete. ...
This paper focuses on the mechanical properties and modulus of elasticity of fly ash and GGBS based ...
Geopolymers are an emerging type of cementitious material purported to provide an environmentally fr...
A summary of the extensive studies conducted on geopolymer concrete is presented; most of the Chapte...
Geopolymers are new inorganic polymer binders; synthesised from aluminosilicate powders such as fly ...
AbstractThe demand of concrete is increasing day by day for satisfying the need of development of in...
This paper reports the correlation between existing standards for concrete and the major mechanical ...
Low calcium fly ash based Geopolymer has been proven to be one of the potential alternatives substit...
Geopolymer concrete is concrete made from industrial materials, such as fly ash, GGBS, silica fume, ...
This paper reports on experimental work that has been undertaken to investigate the flexural strengt...
Ordinary Portland cement (OPC) has been criticised for a long time for its high energy consumption d...
Geopolymer concrete (GPC) are representing the most promising green and eco-friendly alternative to ...
One of the most important challenges for the cement industry is to find sustainable solutions to mit...
The research for the new environmental friendly construction material that will match the durability...
Geopolymer concrete produced using 100% fly ash as the main binder is a sustainable construction mat...
Use of fly ash based geopolymer as an alternative binder can help reduce CO 2 emission of concrete. ...
This paper focuses on the mechanical properties and modulus of elasticity of fly ash and GGBS based ...
Geopolymers are an emerging type of cementitious material purported to provide an environmentally fr...
A summary of the extensive studies conducted on geopolymer concrete is presented; most of the Chapte...
Geopolymers are new inorganic polymer binders; synthesised from aluminosilicate powders such as fly ...
AbstractThe demand of concrete is increasing day by day for satisfying the need of development of in...
This paper reports the correlation between existing standards for concrete and the major mechanical ...
Low calcium fly ash based Geopolymer has been proven to be one of the potential alternatives substit...
Geopolymer concrete is concrete made from industrial materials, such as fly ash, GGBS, silica fume, ...
This paper reports on experimental work that has been undertaken to investigate the flexural strengt...
Ordinary Portland cement (OPC) has been criticised for a long time for its high energy consumption d...
Geopolymer concrete (GPC) are representing the most promising green and eco-friendly alternative to ...
One of the most important challenges for the cement industry is to find sustainable solutions to mit...
The research for the new environmental friendly construction material that will match the durability...