Add to ORKGLadle slag (LS) and urban incineration bottom ash (BA) are two wastes which are necessarily disposed of with few attention for re-use or recycling. Their chemical composition contains silica and alumina accompanied by lime and iron oxides. Mineralogically speaking a number of silicate and silicoaluminate phases are present combined with 20-30 vol% of amorphous matrix. The presence of an important amount of vitreous phase makes LS and BA particularly reactive in alkali media. The geopolymerisation process of 70 wt% of LS or of BA in a metakaolin matrix has been characterized in terms of morphology and crystalline phases evolution
The feasibility of geopolymer synthesis using incinerator bottom ash as the source of Si- and Al- co...
This paper regards the possibility of using geopolymer matrix to immobilize heavy metals present in ...
Geopolymers, and more in general alkali activated materials (AAM), are a new class of materials obta...
Ladle slag (LS) and urban incineration bottom ash (BA) are two wastes which are necessarily disposed...
Ladle slag (LS) and urban incineration bottom ash (BA) are two types of non hazardous inorganic wast...
Ladle slag (LS) and urban incineration bottom ash (BA) are two types of non hazardous inorganic wast...
Incinerator bottom ash (BA) is produced in large amount worldwide and in Italy, where 5.1 millions t...
Recycling industrialwaste to produce newmaterials is a driving path to promote a sustainable develop...
Alkali-activated materials (AAMs) represent a promising alternative to conventional building materia...
This paper regards the possibility of using geopolymer matrix to immobilize heavy metals present in ...
The paper concerns testing and treatment of post-process waste from waste incineration plants with a...
This study regards the synthesis of waste brick geopolymers and the evaluation of their alkali leach...
Abstract Ladle slag, currently an under-utilized crystalline metallurgical residue, was studied for...
Due to its low hydraulic reactivity, ladle slag is currently underutilized with nearly 80% of annual...
This study regards the synthesis of waste brick geopolymers and the evaluation of their alkali leach...
The feasibility of geopolymer synthesis using incinerator bottom ash as the source of Si- and Al- co...
This paper regards the possibility of using geopolymer matrix to immobilize heavy metals present in ...
Geopolymers, and more in general alkali activated materials (AAM), are a new class of materials obta...
Ladle slag (LS) and urban incineration bottom ash (BA) are two wastes which are necessarily disposed...
Ladle slag (LS) and urban incineration bottom ash (BA) are two types of non hazardous inorganic wast...
Ladle slag (LS) and urban incineration bottom ash (BA) are two types of non hazardous inorganic wast...
Incinerator bottom ash (BA) is produced in large amount worldwide and in Italy, where 5.1 millions t...
Recycling industrialwaste to produce newmaterials is a driving path to promote a sustainable develop...
Alkali-activated materials (AAMs) represent a promising alternative to conventional building materia...
This paper regards the possibility of using geopolymer matrix to immobilize heavy metals present in ...
The paper concerns testing and treatment of post-process waste from waste incineration plants with a...
This study regards the synthesis of waste brick geopolymers and the evaluation of their alkali leach...
Abstract Ladle slag, currently an under-utilized crystalline metallurgical residue, was studied for...
Due to its low hydraulic reactivity, ladle slag is currently underutilized with nearly 80% of annual...
This study regards the synthesis of waste brick geopolymers and the evaluation of their alkali leach...
The feasibility of geopolymer synthesis using incinerator bottom ash as the source of Si- and Al- co...
This paper regards the possibility of using geopolymer matrix to immobilize heavy metals present in ...
Geopolymers, and more in general alkali activated materials (AAM), are a new class of materials obta...