par De Schutter, Geert;Abidi, Imene;Korda, Eleni;Boshoff, Billy;Olonade, Kolawole Adisa;Snoeck, Didier ;Muthukrishnan, Shravan;Zhang, Yiyuan;Tao, Yaxin;Ghodke, Swapnil Balasaheb;Mohan, Manu Kurungod;Yardimci, Mert Yücel;Jiao, Dengwu;Sanjayan, Jay
Référence RILEM Technical Letters, 8, page (198-203)
Publication Publié, 2024-09-18
Référence RILEM Technical Letters, 8, page (198-203)
Publication Publié, 2024-09-18
Article révisé par les pairs
Résumé : | Concrete mixtures have an optimized mix design in view of attaining desired properties. However, after mixing, during further processing, it is typically not possible to further adjust the performance of the fresh and hardening concrete. A new and emerging approach is to actively control the concrete properties by means of responsive particles or polymers triggered by an externally applied signal. Active control of properties of concrete refers to the concept of on- demand changes of one or more properties of the concrete after mixing by triggering a response to one or more of the constituents using a specific trigger signal (e.g. thermal, chemical, electrical, magnetic...). The on-demand control of properties can focus on the processing stage (including e.g. pumping, casting, 3D printing), the curing and hardening stage (including e.g. control of capillary pressure, shrinkage, setting, and hardening) and even on the hardened stage during service life (e.g. active corrosion control, active crack healing...). Addressing specific obstacles in cementitious environments, ensuring responsive material stability, controlling signal applicability, cost, logistics, and on-site safety is crucial for successful implementation. A RILEM technical committee has been initiated in 2023, working on the concept of Active Control of Properties of Concrete (RILEM TC 317-ACP). The committee will focus on active control of properties of fresh and hardening concrete. This paper gives a short introduction to scope and activities of TC 317-ACP. |