Add to ORKGThe development of a self-healing concrete aimed at improving the durability of concrete structures has been the focus of Materials for Life (M4L), a 3 year research project conducted by the universities of Cardiff, Bath and Cambridge. This interdisciplinary research has culminated in the UK’s first site trial of self-healing concrete on the A465 Heads of the Valleys section two project in South Wales hosted by one of the main industrial sponsors Costain Group Plc. The trial, which follows on from a series of small-scale laboratory experiments, comprises a number of concrete wall panels which contain combinations of the self-healing techniques studied during the project. These techniques include (i) encapsulation of healing agents led by Ca...
The increasing concern for safety and sustainability of structures is calling for the development of...
To overcome difficulties linked to inspection of certain structural elements, as well as costs and h...
Self-healing is recognized as a promising technique for increasing the durability of concrete struct...
Materials for Life (M4L) was a 3 year, EPSRC funded, research project carried out by the Universitie...
Within the theme \u91Self-healing materials for prolonged lifetime\u92 (NMP.2012.2.1-3) of the Seven...
Within the theme ‘Self-healing materials for prolonged lifetime’ (NMP.2012.2.1-3) of the Seventh Fra...
To reduce downtime, costs and labour for repair of concrete structures, self-healing concrete has be...
Consolidating previous research on the development of novel microcapsules for self-healing in cement...
It has been estimated that, in Europe, 50 % of the annual construction budget is spent on refurbishm...
Self-healing concrete has the potential to significantly reduce the life cycle cost of concrete stru...
It has been estimated that, in Europe, 50 % of the annual construction budget is spent on refurbishm...
After several years of research in the Magnel Laboratory (Belgium) to obtain concrete with self-heal...
ACLInternational audienceAfter several years of research in the Magnel Laboratory for Concrete Resea...
Maintaining the health and reliability of our infrastructure is of strategic importance. The current...
The increasing concern for safety and sustainability of structures is calling for the development of...
To overcome difficulties linked to inspection of certain structural elements, as well as costs and h...
Self-healing is recognized as a promising technique for increasing the durability of concrete struct...
Materials for Life (M4L) was a 3 year, EPSRC funded, research project carried out by the Universitie...
Within the theme \u91Self-healing materials for prolonged lifetime\u92 (NMP.2012.2.1-3) of the Seven...
Within the theme ‘Self-healing materials for prolonged lifetime’ (NMP.2012.2.1-3) of the Seventh Fra...
To reduce downtime, costs and labour for repair of concrete structures, self-healing concrete has be...
Consolidating previous research on the development of novel microcapsules for self-healing in cement...
It has been estimated that, in Europe, 50 % of the annual construction budget is spent on refurbishm...
Self-healing concrete has the potential to significantly reduce the life cycle cost of concrete stru...
It has been estimated that, in Europe, 50 % of the annual construction budget is spent on refurbishm...
After several years of research in the Magnel Laboratory (Belgium) to obtain concrete with self-heal...
ACLInternational audienceAfter several years of research in the Magnel Laboratory for Concrete Resea...
Maintaining the health and reliability of our infrastructure is of strategic importance. The current...
The increasing concern for safety and sustainability of structures is calling for the development of...
To overcome difficulties linked to inspection of certain structural elements, as well as costs and h...
Self-healing is recognized as a promising technique for increasing the durability of concrete struct...