This research investigates the influence of alkali hydroxides on unrestrained volume changes. A detailed multi-method approach is used to characterize the progress of cement hydration, autogenous and drying volume changes (i.e., shrinkage), autogenous RH decrease, compressive strength development, solid and liquid phases and the pore structure. It is noted that under autogenous conditions, alkalis magnify shrinkage; while upon external drying the extent of shrinkage is more similar. This is contrary to expectations which suggest that the reduction in the water activity and the negative pressure developed in the liquid phase, produced by alkali enrichment, should reduce shrinkage. Analysis of the autogenous RH decrease, pore solution chemist...
Alkali-activated materials offer the potential for more durable, sustainable and low-CO2 constructio...
The increased use of high-performance, low water-to-cement (w/c) ratio concretes has led to increase...
Activated slag cement (ASC) shows significantly higher shrinkage than ordinary Portland cement agglo...
This research investigates the influence of alkali hydroxides on unrestrained volume changes. A deta...
© Copyright 2017 Japan Concrete Institute. Previous studies demonstrated that alkalis can considerab...
In cement-based materials, alkalis mainly exist in the form of different alkali sulfates. In this st...
© 2017, RILEM. In this work, shrinkage performance of ordinary portland cement (OPC) paste containin...
Significant drying shrinkage is one of the major issues for the wider application of materials based...
The essence of the problem related to proper deformations in alkali-activated cements (AAC) complica...
Alkali activated materials, especially when activated with waterglass, are subjected to substantial ...
Shrinkage of alkali‐activated slag (AAS) cement is a critical issue for its industrial application. ...
© 2017 Elsevier Ltd In this work, the volume changes of alkali-activated slag (AAS) paste prepared u...
The essence of the problem related to proper deformations in alkali-activated cements (AAC) complica...
In order to study the pore solution, the release and binding of alkalis in a hydrating cement system...
The traditional method of studying alkali-silica expansion reactions has been to cast rectangular pr...
Alkali-activated materials offer the potential for more durable, sustainable and low-CO2 constructio...
The increased use of high-performance, low water-to-cement (w/c) ratio concretes has led to increase...
Activated slag cement (ASC) shows significantly higher shrinkage than ordinary Portland cement agglo...
This research investigates the influence of alkali hydroxides on unrestrained volume changes. A deta...
© Copyright 2017 Japan Concrete Institute. Previous studies demonstrated that alkalis can considerab...
In cement-based materials, alkalis mainly exist in the form of different alkali sulfates. In this st...
© 2017, RILEM. In this work, shrinkage performance of ordinary portland cement (OPC) paste containin...
Significant drying shrinkage is one of the major issues for the wider application of materials based...
The essence of the problem related to proper deformations in alkali-activated cements (AAC) complica...
Alkali activated materials, especially when activated with waterglass, are subjected to substantial ...
Shrinkage of alkali‐activated slag (AAS) cement is a critical issue for its industrial application. ...
© 2017 Elsevier Ltd In this work, the volume changes of alkali-activated slag (AAS) paste prepared u...
The essence of the problem related to proper deformations in alkali-activated cements (AAC) complica...
In order to study the pore solution, the release and binding of alkalis in a hydrating cement system...
The traditional method of studying alkali-silica expansion reactions has been to cast rectangular pr...
Alkali-activated materials offer the potential for more durable, sustainable and low-CO2 constructio...
The increased use of high-performance, low water-to-cement (w/c) ratio concretes has led to increase...
Activated slag cement (ASC) shows significantly higher shrinkage than ordinary Portland cement agglo...