Author(s)

Yu Liang ¹

Affiliation(s)

¹ Guangxi University of Science and Technology, Liuzhou, Guangxi, 545006, China

Corresponding Author

Yu Liang

ABSTRACT

As a key path in the field of low-carbon buildings, the development of solid waste resource-based building materials is constrained by core issues such as component fluctuations, interface defects, and the lack of standards. This paper proposes optimization strategies from three aspects: multi-scale component regulation, interface enhancement technology, and collaborative innovation throughout the entire industrial chain. The interface transition zone is strengthened through means such as nano-modification and chemical stabilization to reduce the chloride ion permeability coefficient to below 0.8×10-12 m2/s. Build a machine learning-driven performance prediction model to achieve intelligent optimization of material ratios; Promote the construction of a standardization system covering the entire chain from waste sorting, performance testing to project acceptance. Research shows that the compressive strength of the optimized geopolymer concrete reaches 55MPa, its carbon emissions throughout its life cycle are reduced by 72% compared to traditional concrete, and its service life is extended to 70 years. This research provides theoretical support and technical paradigms for the large-scale low-carbon application of resource-based building materials.

KEYWORDS

Solid Waste: Resource Utilization; Building Materials; Low-Carbon Optimization; Interface Enhancement; "Full Industrial Chain Collaboration: Standardization System

CITE THIS PAPER

Yu Liang, Low-Carbon Pathways for Solid Waste Resource Utilization in High-performance Building Materials. Environment, Resource and Ecology Journal (2025) Vol. 9: 148-155. DOI: http://dx.doi.org/10.23977/erej.2025.090117.

REFERENCES

[1] Miao Changwen, Mu Song. Thoughts and Prospects on the Green and Low-Carbon Path of Cement-based Materials under the "Dual Carbon" Goals [J] Future Urban Design and Operation, 2022(2):10-16.
[2] Zhang Fei. Research on Resource Recycling Technology of Construction Waste under the Concept of Low-Carbon and Environmental Protection [J]. China Comprehensive Utilization of Resources, 2025, 43(1):234-236.
[3] Tian Tian. Research on the Development Countermeasures of Resource Utilization of Construction Waste in Jilin Province [J]. Regional Governance, 2024(27):0127-0129.
[4] Xu Kai. Reform Path of Low-Carbon Governance in the Construction Field under the "Dual Carbon" Goals [J]. Popular Science, 2023(10):46-48.
[5] Xiao Jianzhuang, Yu Caihua, Xiao Xuwen, et al. Research on the Basic Issues and Development Path of Resource Utilization of Waste Waterproofing Membranes [J]. Engineering Sciences in China, 2023, 25(5):210-221.

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