核壳型轻质高强免烧陶粒的制备及抗震性分析
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摘要
核壳型免烧陶粒由EPS珠粒包裹而成,密度小、强度高,具备生产高强抗震混凝土所用粗集料的性能。核壳陶粒表面大量的微孔隙和本身的核壳结构,决定了该陶粒具有的低的弹性模量,所以地震中可以吸收较大的冲击能量,减少了建筑物的开裂。另外,该陶粒具有低的导热能力,以此生产的墙材具备自保温墙体材料节能特征。陶粒混凝土建筑工程造价可降低10%,减少材料运输重量30%~40%,核壳型免烧陶粒综合效益显著。
The core-shell non-burned haydite wrapped by EPS,with the performance of low density,high strength,can produce high strength anti-seismic concrete as coarse aggregate.The large number of micro-pore in the surface of the core-shell haydite and its core-shell structure decide this haydite has a low elastic modulus,so it can absorb large impact energy in earthquake,reduce the cracks of buildings.In addition,this haydite has low thermal conductivity capacity,thus the production of wall materials made by this haydite possess energy-saving features from the wall insulation.Haydite concrete construction cost can be reduced 10%,reduce material transport weight of 30% to 40%,the core-shell non-burned haydite comprehensive benefit significantly.
The core-shell non-burned haydite wrapped by EPS,with the performance of low density,high strength,can produce high strength anti-seismic concrete as coarse aggregate.The large number of micro-pore in the surface of the core-shell haydite and its core-shell structure decide this haydite has a low elastic modulus,so it can absorb large impact energy in earthquake,reduce the cracks of buildings.In addition,this haydite has low thermal conductivity capacity,thus the production of wall materials made by this haydite possess energy-saving features from the wall insulation.Haydite concrete construction cost can be reduced 10%,reduce material transport weight of 30% to 40%,the core-shell non-burned haydite comprehensive benefit significantly.
引文
[1]叶跃忠.汶川大地震主要建筑材料表现与抗震对策分析[J].四川建筑科学研究,2009,35(6).
[2]邵力群,李辉,陈文元.5.1 2汶川大地震中钢筋混凝土框、排架房屋震害现象的调查分析[J].工业建筑,2009,39(1).
[3]张广成,彭桂蒸,等.高强陶粒混凝土抗震性能研究[J].低温建筑技术,2010,141(31).
[4]朱宏军,高振林,等.免烧粉煤灰建筑陶粒的研制[J].北方工业大学学报,2002,14(1).
[5]李平江,刘巽伯.高强页岩陶粒混凝土的基本力学性能[J].建筑材料学报,2004,7(1).
[6]李晓曦.探讨刚度对结构抗震性能的影响[J].山西建筑,2008,34(29).
[7]范锦忠.利用废渣生产陶粒及陶粒生产线节能减排措施[J].墙材革新与建筑节能,2008,6(1).
[2]邵力群,李辉,陈文元.5.1 2汶川大地震中钢筋混凝土框、排架房屋震害现象的调查分析[J].工业建筑,2009,39(1).
[3]张广成,彭桂蒸,等.高强陶粒混凝土抗震性能研究[J].低温建筑技术,2010,141(31).
[4]朱宏军,高振林,等.免烧粉煤灰建筑陶粒的研制[J].北方工业大学学报,2002,14(1).
[5]李平江,刘巽伯.高强页岩陶粒混凝土的基本力学性能[J].建筑材料学报,2004,7(1).
[6]李晓曦.探讨刚度对结构抗震性能的影响[J].山西建筑,2008,34(29).
[7]范锦忠.利用废渣生产陶粒及陶粒生产线节能减排措施[J].墙材革新与建筑节能,2008,6(1).
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