黄晓雯,庞建勇,王凤瑶,沈恒祥,刘宜思
黄晓雯,庞建勇,王凤瑶,等.混杂纤维轻骨料混凝土力学与导热性能研究[J].混凝土与水泥制品,2021(4):55-59.
HUANG X W,PANG J Y,WANG F Y,et al.Study on Mechanical and Thermal Conductivity of Hybrid Fiber Lightweight Aggregate Concrete[J].CHINA CONCRETE AND CEMENT PRODUCTS,2021(4):55-59.
混杂纤维轻骨料混凝土力学与导热性能研究
黄晓雯,庞建勇,王凤瑶,沈恒祥,刘宜思
黄晓雯,庞建勇,王凤瑶,等.混杂纤维轻骨料混凝土力学与导热性能研究[J].混凝土与水泥制品,2021(4):55-59.
HUANG X W,PANG J Y,WANG F Y,et al.Study on Mechanical and Thermal Conductivity of Hybrid Fiber Lightweight Aggregate Concrete[J].CHINA CONCRETE AND CEMENT PRODUCTS,2021(4):55-59.
摘 要:采用正交试验对钢-植物混杂纤维轻骨料混凝土(Steel-plant Fibre Hybrid Lightweight Aggregate Concrete,SPFLC)的抗压强度、抗拉强度、抗剪强度和导热性能进行了研究,并使用Matlab软件进行了多元线性回归分析,得到了SPFLC力学性能与导热性能的预测模型。结果表明:陶粒掺量对SPFLC的抗压强度、抗拉强度、抗剪强度和导热性能均有高度显著影响,对抗拉强度的贡献率最大为67.48%;陶砂掺量对SPFLC的抗拉强度几乎无影响,对抗压强度的贡献率最大为49.72%;钢纤维掺量对SPFLC的抗压强度和抗剪强度有高度显著影响,对抗剪强度的贡献率最大为42.36%;植物纤维掺量对SPFLC的力学性能和导热性能均有高度显著影响,对抗拉强度的贡献率最大为26.61%,且随着植物纤维掺量的增加,导热系数最大下降了23.7%;建立的SPFLC力学性能与导热性能预测模型的精度较高。
Abstract: The compressive strength, tensile strength, shear strength and thermal conductivity of steel-plant hybrid fiber lightweight aggregate concrete(SPFLC) were studied by orthogonal tests. The prediction model of mechanical properties and thermal conductivity of SPFLC were obtained by multiple linear regression analysis with Matlab software. The results show that the ceramsite content has a highly significant influence on the compressive strength, tensile strength, shear strength and thermal conductivity of SPFLC, and the maximum contribution rate to tensile strength is 67.48%. The content of ceramic sand has almost no influence on the tensile strength of SPFLC, and the maximum contribution rate to compressive strength is 49.72%. The steel fiber content has a highly significant influence on the compressive strength and shear strength of SPFLC, and the maximum contribution rate to shear strength is 42.36%. The plant fiber content has a highly significant influence on the mechanical and thermal properties of SPFLC, among which the contribution rate to tensile strength is up to 26.61%, and the thermal conductivity decreases by 23.7% with the increase of plant fiber content. The prediction models of mechanical properties and thermal conductivity of SPFLC have a high accuracy.
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