Geopolymer concrete is concrete made from industrial materials, such as fly ash, GGBS, silica fume, and metakaolin, used as a cement alternative. In this study, geopolymer concrete will be based on fly ash as a binder material, alkaline activators of sodium hydroxide and sodium silicate, GPC beams of dimensions 800 mm × 250 mm × 100 mm, circular columns with diameter 350 mm and depth of 700 mm and GPC slabs of dimensions 500 mm × 500 mm × 100 mm are all cast with fly ash content of 350 kg/m3. The ratio of alkaline solution to fly ash was equal to 0.5 and was kept constant, and the Na2SiO3-to-NaOH ratio was 2.5 and the NaOH molarity was kept constant at 12 M. The beams reinforcement was changed to study the shear and flexural behaviour, and ...
Excessive production of the cement will bring negative impact to the environment. Fly ash which is o...
none5noCodici volume: 10.5301/jabfm.5000321, WOS:000392834300012, 2-s2.0-85015351808, 27502021Abstra...
This paper presents an innovative approach towards the development of a green concrete. The geopolym...
Fly ash is a by-product from the coal industry, which is widely available in Indonesia. Fly ash cont...
This paper presents a study of flyash based geopolymer concrete Engineering properties like compres...
Geopolymers are amorphous aluminosilicate materials. Geopolymers are binders formed by alkali activa...
The worldwide consumption of concrete is expected to increase in order to meet the increasing demand...
A summary of the extensive studies conducted on geopolymer concrete is presented; most of the Chapte...
The research for the new environmental friendly construction material that will match the durability...
This paper focuses on the mechanical properties and modulus of elasticity of fly ash and GGBS based ...
Geopolymer concrete produced using 100% fly ash as the main binder is a sustainable construction mat...
Geopolymer concrete is a booming technology in the construction industry. Much research is occurring...
Geopolymer binders have been shown to be a potential green replacement for Ordinary Portland Cement ...
It is widely known that the production of Portland cement consumes considerable energy and at the sa...
Extensive research is currently going on to evaluate geo-polymer in civil engineering application. T...
Excessive production of the cement will bring negative impact to the environment. Fly ash which is o...
none5noCodici volume: 10.5301/jabfm.5000321, WOS:000392834300012, 2-s2.0-85015351808, 27502021Abstra...
This paper presents an innovative approach towards the development of a green concrete. The geopolym...
Fly ash is a by-product from the coal industry, which is widely available in Indonesia. Fly ash cont...
This paper presents a study of flyash based geopolymer concrete Engineering properties like compres...
Geopolymers are amorphous aluminosilicate materials. Geopolymers are binders formed by alkali activa...
The worldwide consumption of concrete is expected to increase in order to meet the increasing demand...
A summary of the extensive studies conducted on geopolymer concrete is presented; most of the Chapte...
The research for the new environmental friendly construction material that will match the durability...
This paper focuses on the mechanical properties and modulus of elasticity of fly ash and GGBS based ...
Geopolymer concrete produced using 100% fly ash as the main binder is a sustainable construction mat...
Geopolymer concrete is a booming technology in the construction industry. Much research is occurring...
Geopolymer binders have been shown to be a potential green replacement for Ordinary Portland Cement ...
It is widely known that the production of Portland cement consumes considerable energy and at the sa...
Extensive research is currently going on to evaluate geo-polymer in civil engineering application. T...
Excessive production of the cement will bring negative impact to the environment. Fly ash which is o...
none5noCodici volume: 10.5301/jabfm.5000321, WOS:000392834300012, 2-s2.0-85015351808, 27502021Abstra...
This paper presents an innovative approach towards the development of a green concrete. The geopolym...