The inter-disciplinary concept of the project moves from stakeholder needs to solve problems of non-efficient use of resources in the structural design and construction of selected applications. The project concept moves from a prescription-based to a performance-based material and structural durability concept. The use of UHDC is meant as a driver to shape this conceptual approach through the following advances with respect to the current SoA:
• A breakthrough durability-based material concept and design in which durability is not a bonus but becomes the governing objective, transforming cement-based construction materials from “durability passive” spectators, with structural functions, into active players able to govern aging and degradation processes also through the use of “tailored” value-added synergy-acting functionalities;
• A robust design-oriented durability evaluation and modelling activity in real service conditions, scaling up the modelling to real scenarios, including probabilistic and fuzzy-based incorporation into DAD approach of self-healing concepts, through the concept of “healable crack width”, as a function of material compositions and exposure scenario;
• A holistic design approach, which moves from the material to the structural durability level, able quantify the increase in the service life of structures made of UHDC, and the related outcomes in terms of LCC and SLCA. The proposed holistic approach for the design and assessment of UHDC structures has to be intened as a KET for large scale marked diffusion of UHDCs and increase innovation uptake of construction industry, dismantling the concept of advanced cement based materials as luxury products.
The demonstation provided by ReSHEALience through the six different pilots, which has been be designed, built and will be monitored, even after the project end, under real site conditions, is providing a clear demonstration of the true performance of materials, products and structures aiming at overall resilience of engineering applications, which encompasses material robustness, structural and material redundancy and resourcefulness and rapidity, through synergy between material functionalities and tailored design.