摘要
文章围绕低碳混凝土的高性能化与低环境负荷,设计基于工业废弃物、矿物掺合料和新型激发剂的材料配比方案,优化制备工艺,探究在资源消耗和碳排放方面的优势。试验验证低碳混凝土在力学性能、耐久性和环境适应性上的表现,使用基于全生命周期评价的方法,构建低碳混凝土的环境影响评价模型,量化其碳排放减排潜力,评估其在工程实际应用中的环境效益。结果表明,合理选择材料与优化工艺可降低碳足迹,并在确保性能的前提下实现资源高效利用,为绿色建筑提供技术支持。
Focusing on the high performance and low environmental load of low-carbon concrete,this paper designs a material ratio scheme based on industrial waste,mineral admixture and new activator,optimizes the preparation process,and explores the advantages in resource consumption and carbon emissions.The test verifies the performance of low-carbon concrete in terms of mechanical properties,durability and environmental adaptability,and uses the whole life cycle assessment method to construct an environmental impact assessment model of low-carbon concrete,quantify its carbon emission reduction potential,and evaluate the environmental benefits in the practical application of the project.The results show that rational selection of materials and optimized processes can reduce the carbon footprint and achieve efficient use of resources while ensuring performance,providing technical support for green buildings.
出处
《江苏建材》
2025年第3期1-3,共3页
Jiangsu Building Materials
关键词
低碳混凝土
制备技术
性能优化
碳排放
全生命周期评价
low-carbon concrete
preparation technology
performance optimization
carbon emissions
life cycle assessment
