A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Solid waste-based magnesium phosphate cements: Preparation, performance and solidification/stabilization mechanism
Graphical abstract Display Omitted
Highlights 121 published literatures in the latest 15 years on MPC are reviewed. Performances of more than 40 types of solid waste-based MPCs are evaluated. Influence factors on the performance of multiple MPCs are classified and discussed. The S/S mechanisms of various solid waste components are investigated.
Abstract Magnesium phosphate cement (MPC) is a promising material for solid waste recycling. Other than undoped MPC studies, this review systematically summarizes 121 relevant literatures on the solid waste-based MPC published in the past 15 years. More than 40 types of solid waste-based MPCs are integrally evaluated. Besides, the hydration kinetics of MPC and action principle of doped elements are emphatically explored and discussed. Moreover, the gaps of solid waste-based MPC are analyzed from cost, performance, and safety. Finally, the future development trends of solid waste-based MPC, including life cycle assessment, long-term stability and priority of mechanism studies are investigated.
Solid waste-based magnesium phosphate cements: Preparation, performance and solidification/stabilization mechanism
Graphical abstract Display Omitted
Highlights 121 published literatures in the latest 15 years on MPC are reviewed. Performances of more than 40 types of solid waste-based MPCs are evaluated. Influence factors on the performance of multiple MPCs are classified and discussed. The S/S mechanisms of various solid waste components are investigated.
Abstract Magnesium phosphate cement (MPC) is a promising material for solid waste recycling. Other than undoped MPC studies, this review systematically summarizes 121 relevant literatures on the solid waste-based MPC published in the past 15 years. More than 40 types of solid waste-based MPCs are integrally evaluated. Besides, the hydration kinetics of MPC and action principle of doped elements are emphatically explored and discussed. Moreover, the gaps of solid waste-based MPC are analyzed from cost, performance, and safety. Finally, the future development trends of solid waste-based MPC, including life cycle assessment, long-term stability and priority of mechanism studies are investigated.
Solid waste-based magnesium phosphate cements: Preparation, performance and solidification/stabilization mechanism
Zhang, Qiushi (author) / Cao, Xing (author) / Ma, Rui (author) / Sun, Shichang (author) / Fang, Lin (author) / Lin, Junhao (author) / Luo, Juan (author)
2021-05-24
Article (Journal)
Electronic Resource
English
Development of magnesium phosphate cements for encapsulation of radioactive waste
| Tema Archive | 2010
New Applications of Magnesium Phosphate Cements
| British Library Conference Proceedings | 1998
New applications of magnesium phosphate cements
| Tema Archive | 1998