Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Non-hydration strength in cementitious compositions
Described are compositions and methods for controlled strength development in a hydratable cementitious material, and more particularly to the use of polymerizable monomer components, which are initiated and activated by a redox pair which are mixed in controlled fashion, for enhancing non-hydration strength within the matrix of the plastic hydratable cementitious material before setting of the cementitious material begins. Exemplary applications include minimizing pressures on formwork for high fluid ready-mix applications, enhancing support and bonding properties for integrated concrete slab work and other sequential applications, or facilitating speedy 3D printing applications, among other unique possibilities.
Non-hydration strength in cementitious compositions
Described are compositions and methods for controlled strength development in a hydratable cementitious material, and more particularly to the use of polymerizable monomer components, which are initiated and activated by a redox pair which are mixed in controlled fashion, for enhancing non-hydration strength within the matrix of the plastic hydratable cementitious material before setting of the cementitious material begins. Exemplary applications include minimizing pressures on formwork for high fluid ready-mix applications, enhancing support and bonding properties for integrated concrete slab work and other sequential applications, or facilitating speedy 3D printing applications, among other unique possibilities.
Non-hydration strength in cementitious compositions
CHUN BYONG-WA (Autor:in) / TREGGER NATHAN (Autor:in) / BERODIER ELISE (Autor:in) / BURNS ELIZABETH (Autor:in) / ROCHA ERNIE (Autor:in) / WILSON EZGI (Autor:in) / ROBERTS MARK F (Autor:in)
18.03.2021
Patent
Elektronische Ressource
Englisch
IPC:
C04B
Kalk
,
LIME