To enhance forestry solid waste reuse, reduce building energy consumption, and increase building capacity, producing lightweight concrete with new materials has garnered recent attention. This study used waste wood and expanded perlite (EP) to design lightweight thermal insulation recycled concrete (LTIRC) with varying volume admixtures. Compared to mineral aggregate, wood aggregate (WA) and EP exhibit significant differences in water absorption, particle morphology, density, and crushing index. This study aimed to prepare LTIRC using two lightweight aggregates (WA & EP) and evaluate their dry density, mechanical properties, thermal properties, chloride ion permeability, and frost resistance. The results showed WA and EP introduction effectively reduced concrete bulk weight and met the dry density standard for lightweight concrete. In terms of thermal insulation performance, both WA and EP are characterized by porous, low–density, and low thermal conductivity. Consequently, LTIRC thermal conductivity was reduced by up to 76.5% versus conventional concrete, effectively increasing resistance to heat flow through concrete and providing potential for building energy savings. Additionally, WA and EP addition caused LTIRC to experience mechanical and durability property deterioration. However, some LTIRC achieved over 80% of the strength of natural aggregate concrete. Moreover, WA addition inhibited internal crack generation in LTIRC and slowed concrete damage from increased WA and EP dosage. The maximum mass loss of LTIPC was 2.72% after 100 freeze–thaw cycles. LTIPC precast panels are suitable for preparing low-carbon insulated building wall panels.
CITATION STYLE
Xu, C., Pan, W., Zhang, P., Zhang, Z., Wang, Z., Su, D., … Guo, Y. (2024). Characterization and performance evaluation of lightweight thermal insulation recycled concrete. Discover Applied Sciences, 6(6). https://doi.org/10.1007/s42452-024-05938-7
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