Water absorptivity and frost resistance performance of self-ignition coal gangue autoclaved aerated concrete

• Published in: Journal of infrastructure preservation and resilience Vol. 2; no. 1; pp. 1 - 10
• Main Authors: Cong, Xinyu, Tan, Yiqiu, Lu, Shuang, Wang, Zhaojia, Huang, Tianyong
• Format: Journal Article
• Language: English
• Published: Cham Springer International Publishing 11.05.2021; Springer Nature B.V; SpringerOpen
• Subjects: Absorption; Absorptivity; Aerated concrete; Aeration; Autoclaved aerated concrete; Calcium; Calcium absorption; Cement; Civil Engineering; Coal; Compressive strength; Engineering; Freeze thaw cycles; Freeze-thaw durability; Freeze-thaw tests; Freeze-thawing; Frost; Frost resistance; Frost resistance performance; Gangue; Ignition; Moisture content; Porosity; Porous materials; Self-ignition coal gangue; Water absorption; Water absorptivity; Water content; Autoclaved aerated concrete; Porosity; Frost resistance performance; Water absorptivity; Self-ignition coal gangue
• ISSN: 2662-2521; 2662-2521
• DOI: 10.1186/s43065-021-00031-4

Self-ignition coal gangue (SCG) used as one of precursors to fabricate autoclaved aerated concrete (AAC). Aiming at studying water absorptivity and frost resistance performance of SCG-based AAC (SCGAAC), three-period water absorption tests and freeze-thaw tests were carried out and the corresponding results were recorded and analyzed. In order to modify the water absorptivity of SCGAAC, foam stabilizer was applied to adjust pore structure while calcium stearate was expected to change hydrophilic feature of SCG. It was demonstrated that the compressive strength of SCGAAC containing foam stabilizer or calcium stearate declined at different levels. For water absorption, foam stabilizer failed to decrease the water content and even increased water absorption rates. Calcium stearate controlled water absorption rate successfully although the ultimate water content hardly reduced. All of the SCGAAC samples exhibited intact appearance after 50 freeze-thaw cycles and showed excellent frost resistance performance. Three models were proposed to predict water absorptivity and frost resistance performance of SCGAAC and the corresponding prediction results matched test resulted well.