Add to ORKGThis paper reports results of a research project related to the development of geopolymeric binder using mineral waste mud from the Portuguese tungsten mine Panasqueira. Abrasion and acid resistance of two ordinary Portland cement (OPC) strength class concrete mixtures (C20/25 and C30/37) and several tungsten mine waste mud (TMWM) geopolymeric binder mixtures was evaluated. Acid resistance was performed by submitting samples to solutions of sulphuric acid, nitric acid and chloridric acid, results of weight loss are reported. Abrasion resistance was assessed by the mass loss of cubic specimens when submitted to 1000 rotations with the Los Angeles apparatus test machine. This study indicates that TMWM geopolymeric binders possess higher acid...
The rheological properties of Portland cement (PC) concrete have been extensively studied and compar...
Tungsten mine waste mud (TMWM) geopolymeric binder is a new cementitious material with a very high e...
This study presents the development and experimental assessment of novel, high strength, cementless ...
This paper reports results of a research project related to the development of geopolymeric binder u...
It is now accepted that new binders, such as alkali-activated binders, are needed to replace portlan...
This paper reports preliminary results of a PhD research project related to the development of an al...
Tungsten mine waste mud (TMWM) was investigated for its potential use as repair material of ordinary...
An experimental preliminary investigation was conducted to evaluate bond strength between Ordinary P...
This paper report results of a research project on the development of alkali-activated binders usin...
There is a growing demand for alternative low carbon binders. For these relatively new binder system...
Malaysia is a one of the developing countries where the constructions of infrastructure is still ong...
Development of geopolymers from wastes or by-products introduces a sustainable approach to replace o...
Construction industry is constantly growing globally hence the raw material required is also in heav...
Construction industry is constantly growing globally hence the raw material required is also in heav...
Ordinary Portland cement (OPC) is a conventional material used to construct rigid pavement that emit...
The rheological properties of Portland cement (PC) concrete have been extensively studied and compar...
Tungsten mine waste mud (TMWM) geopolymeric binder is a new cementitious material with a very high e...
This study presents the development and experimental assessment of novel, high strength, cementless ...
This paper reports results of a research project related to the development of geopolymeric binder u...
It is now accepted that new binders, such as alkali-activated binders, are needed to replace portlan...
This paper reports preliminary results of a PhD research project related to the development of an al...
Tungsten mine waste mud (TMWM) was investigated for its potential use as repair material of ordinary...
An experimental preliminary investigation was conducted to evaluate bond strength between Ordinary P...
This paper report results of a research project on the development of alkali-activated binders usin...
There is a growing demand for alternative low carbon binders. For these relatively new binder system...
Malaysia is a one of the developing countries where the constructions of infrastructure is still ong...
Development of geopolymers from wastes or by-products introduces a sustainable approach to replace o...
Construction industry is constantly growing globally hence the raw material required is also in heav...
Construction industry is constantly growing globally hence the raw material required is also in heav...
Ordinary Portland cement (OPC) is a conventional material used to construct rigid pavement that emit...
The rheological properties of Portland cement (PC) concrete have been extensively studied and compar...
Tungsten mine waste mud (TMWM) geopolymeric binder is a new cementitious material with a very high e...
This study presents the development and experimental assessment of novel, high strength, cementless ...