Add to ORKGThis research data presents the results of expansive minerals (magnesium oxide, bentonite clay, and quicklime) optimum mix proportions with PC and the establishment of a quantitative approach for correlating autogenous healing to the age of contentious materials. Healing performances were assessed in terms of load recovery, crack sealing efficiency and gas permeability. The microstructure of materials was investigated using XRD, TGA and SEM-EDX
AbstractThis study presents the application of encapsulated expansive powder minerals (magnesium oxi...
Excessive drying shrinkage is one of the major issues of concern for longevity and reduced strength ...
International audienceThe autogenous self-healing of cementitious material micro-cracks might lead t...
This research data presents the results of expansive minerals (magnesium oxide, bentonite clay, and ...
This data presents the results of early age autogenous self-healing of cement paste with expansive m...
This part of the study presents the optimisation of expansive minerals mix proportions and establish...
This study investigates the impact of expansive minerals, namely magnesium oxide, bentonite clay, an...
Data supporting the research on the enhancement of autogenous self-healing capacity through partial ...
© 2018 Elsevier Ltd. All rights reserved. This manuscript is licensed under the Creative Commons Att...
© Crown copyright 2018. This manuscript is made available under the terms of the Creative Commons At...
Portland Cement (PC) based concrete has been popular in construction for over a century, yet concret...
International audienceAs shrinkage can affect the concrete durability, several solutions were design...
The autogenous healing potential of cement-based materials is affected by multiple factors, such as ...
This study presents the application of encapsulated expansive powder minerals (magnesium oxide, bent...
Since self-healing of cementitious materials can theoretically improve the service-life of concrete ...
AbstractThis study presents the application of encapsulated expansive powder minerals (magnesium oxi...
Excessive drying shrinkage is one of the major issues of concern for longevity and reduced strength ...
International audienceThe autogenous self-healing of cementitious material micro-cracks might lead t...
This research data presents the results of expansive minerals (magnesium oxide, bentonite clay, and ...
This data presents the results of early age autogenous self-healing of cement paste with expansive m...
This part of the study presents the optimisation of expansive minerals mix proportions and establish...
This study investigates the impact of expansive minerals, namely magnesium oxide, bentonite clay, an...
Data supporting the research on the enhancement of autogenous self-healing capacity through partial ...
© 2018 Elsevier Ltd. All rights reserved. This manuscript is licensed under the Creative Commons Att...
© Crown copyright 2018. This manuscript is made available under the terms of the Creative Commons At...
Portland Cement (PC) based concrete has been popular in construction for over a century, yet concret...
International audienceAs shrinkage can affect the concrete durability, several solutions were design...
The autogenous healing potential of cement-based materials is affected by multiple factors, such as ...
This study presents the application of encapsulated expansive powder minerals (magnesium oxide, bent...
Since self-healing of cementitious materials can theoretically improve the service-life of concrete ...
AbstractThis study presents the application of encapsulated expansive powder minerals (magnesium oxi...
Excessive drying shrinkage is one of the major issues of concern for longevity and reduced strength ...
International audienceThe autogenous self-healing of cementitious material micro-cracks might lead t...