Self-healing As preventive Repair of Concrete Structures

Srebrenkoska, Vineta (2016) Self-healing As preventive Repair of Concrete Structures. [Project] (In Press)

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Abstract

The search for smart self-healing materials and preventive repair methods is justified by the increasing sustainability and safety requirements of structures. The appearance of small cracks in concrete is unavoidable, not necessarily causing a risk of collapse for the structure, but certainly accelerating its degradation and diminishing the service life and sustainability of constructions. That loss of performance and functionality promote an increasing investment on maintenance and/or intensive repair/strengthening works.
The critical nature of such requirements is signified by their inclusion as priority challenges in the European
Research Program. The first focus of this proposal is to compare the use of self-healing capabilities of concrete
with the use of external healing methods for repairing existing concrete elements. Despite the promising potential of the developed healing technologies, they will be real competitive alternatives only when sound and
comparative characterization techniques for performance verification are developed, being this SARCOS second focus. The third focus deals with modelling the healing mechanisms taking place for the different designs and with predicting the service life increase achieved by these methods. SARCOS COST Action will be leaded by research institutions searching on different self-healing technologies and repair
solutions for extending service life of new and existing concrete structures, with high expertise in developing
characterization techniques. Also specialists on modelling healing mechanisms and experts on numerical service life prediction models contribute for the success. This composition provides a solid framework to advance in implementing innovative and sustainable solutions for extending the service life of concrete structures.

Item Type: Project
Subjects: Engineering and Technology > Materials engineering
Divisions: Faculty of Technology
Depositing User: Vineta Srebrenkoska
Date Deposited: 06 Feb 2017 13:44
Last Modified: 06 Feb 2017 13:44
URI: https://eprints.ugd.edu.mk/id/eprint/17155

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