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高强混凝土高温爆裂抑制措施研究1 被引量:7

Measures to improve spalling resistance of high strength concrete at elevated temperature
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摘要 首先提出了定量表征混凝土受火爆裂程度的方法,然后研究了4种纤维、1种聚合物乳液和2种防火涂层对硅灰高强混凝土和粉煤灰高强混凝土受火爆裂的抑制效果。研究表明,单丝状、直径较小的聚丙烯纤维可有效抑制爆裂,提出了包裹于纤维表面的、受保护的混凝土柱的直径计算方法,并用以定量描述纤维掺量和直径对抗爆裂的影响。孔结构分析表明:添加物能有效抑制爆裂时,一般表现为试件受火后孔隙率显著提高,最可几孔径发生明显偏移,并且此最可几孔占有一定的数量。防火涂层具有一定的抗爆裂效果,但与涂层本身性能有关。 A quantitative method on concrete spalling degree under fire was proposed. The spalling restrain efforts on silica fume high strength concrete and fly ash high strength concrete blended with four kinds fiber, one polymer latex and coated with two fireproofing were study. Research shows that single polypropylene with a smaller diameter had a availability effort on restrain spalling. The calculating method on fire spalling-protected concrete column diameter which around the fiber was proposed and was described the effects on fire spalling-protected of amounts and diameter of blended fiber in concrete. Porosity structure analysis show porosity prominence elevation and a mount excursion of fired specimens when the blended had a availability anti-spalling efforts. A definite anti-spalling effort was affected by the performance of fire-proofing coating itself.
作者 游有鲲 钱春香 缪昌文
机构地区 江苏省建筑科学院有限公司 东南大学
出处 《混凝土》 CAS CSCD 北大核心 2005年第10期7-11,15,共6页 Concrete
基金 教育部高等学校骨干教师计划 江苏省自然科学基金(BK99016) 江苏省建设厅科技计划(JS200136) 江苏省无机及其复合新材料重点实验室开放基金资助
关键词 高强混凝土 高温 爆裂度 纤维 乳液 防火涂层 high strength concrete elevated temperature spalling degree fiber latex fire-proofing coating
分类号 TU528.31 [建筑科学—建筑技术科学]
  • 相关文献

参考文献11

  • 1Y. Anderberg, Spalling phenomena of HPC and OC, in: L. T. Phan, N.J. Carino, D. Duthinh, E. Garboczi ( Eds. ), Proceedings of International Workshop on Fire Performance of High- Strength Concrete,NIST, Gaithersburg, MD, USA, 1997, 69 - 73.
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  • 9王珩,钱春香,孙伟.材料参数对砂浆受火爆裂的影响及预测[J].火灾科学,2003,12(3):138-145. 被引量:3
  • 10李敏,钱春香,王珩,游有鲲,孙伟.高强混凝土受火后力学性能变化规律的研究[J].硅酸盐学报,2003,31(11):1116-1120. 被引量:38

二级参考文献16

  • 1[1]CHAN Y N, LUO X, SUN W. Compressive strength and pore structure of high-performance concrete after exposure to high temperature up to 800 ℃ [J]. Cem Concr Res, 2000,30:247-251.
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  • 6G G Carette, K E Painter, V M Maihotra . Sustained High Temperature Effect on Concretes Made With Normal Portland Cement , Normal Portland Cement and Slag, or Normal Portland Cement and Fly ash[J]. Concrete Intermational, Jul 1982:41 - 51.
  • 7Chan Y N Sammy, Peng Gei Fei, Michael Anson. Fire behavior of high performance concrete made with silica fume at various moisture contents [J]. ACI Materials Journal, 1999,96(3) :405 - 409.
  • 8G Sanjayan, L J Stocks. Spalling of High-Strength Silica Fume Concrete in Fire[J]. ACI Materials Journal, 1993,90(2) :70 - 173.
  • 9Pierre Kalifa, Gregoire Chene, Christophe Galle. High-temperature behaviour of HPC with polypropylene fibres From spalling to microstructure [ J ]. Cement and Concrete Research , 2001,31 : 1487 - 1499.
  • 10G L England, N Khoylou. Moisture flow in concrete under steady state non-uniform temperature states: experimental observation and theoretical modeling [ J ]. Nuclear Engineering and Design, 1995,156:83 - 107.

共引文献38

同被引文献84

引证文献7

二级引证文献27

混凝土
2005年 第10期

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