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引用本文:	何忠意,邓安,王海波,倪林.冻结作用下复合填料水分迁移与冻胀特性研究[J].建筑材料学报,2012,(5):703-707

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冻结作用下复合填料水分迁移与冻胀特性研究
何忠意¹, 邓安², 王海波³, 倪林²
1.广东天信电力工程检测有限公司，广东广州510600;2.河海大学岩土工程科学研究所，江苏南京210098;3.南京林业大学土木工程学院，江苏南京210037

摘要:

在补水条件下，对4种聚苯乙烯（EPS）颗粒掺量的复合填料试样施加3种冷端温度（-5,-10,-15℃）冻结，开展水分迁移及冻胀特性测试与分析.研究了冻结作用下复合填料温度分布特征、水分迁移规律和冻胀变形特性，基于温度场和水分场的相关性分析了复合填料抗冻胀破坏机理.结果表明，一定程度地增加EPS颗粒含量，会使复合填料冻结温度与热阻提高，温度传导、冻结锋面移动速率以及冻结深度递减，已冻区含水率增量变小，冻结锋面和未冻区含水率增量变大，冻胀量减少，有助于缓解冻胀破坏.EPS颗粒掺量为0.5%~1.0%（质量分数）时，复合填料抗冻胀性能较好.抗冻胀机制与EPS颗粒的隔热、阻水和吸纳作用有关.

关键词: 复合填料冻结水分迁移冻胀废铸砂聚苯乙烯（EPS）颗粒

DOI：10.3969/j.issn.1007 9629.2012.05.023

分类号:

基金项目:国家自然科学基金资助项目（50708031）；江苏省基础研究计划(自然科学基金) 项目(BK2009027)；中央高校基本科研业务费专项资金项目

Investigation of Moisture Transfer and Frost Heave of Composite Geofoam under Frost Condition

HE Zhong yi¹, DENG An², WANG Hai bo³, NI Lin²

1.Guangdong Tianxin Electric Power Engineering Testing Co., Ltd., Guangzhou 510600, China;2.Geotechnical Research Institute, Hohai University, Nanjing 210098, China;3.College of Civil Engineering, Nanjing Forestry University, Nanjing 210037, China

Abstract:

A laboratory study was carried out to investigate the heat moisture transfer and frost heave characteristics of a composite geofoam under artificial frost condition. The geofoam was composed of expanded polystyrene(EPS) beads, waste foundry sand, water and cement in proper proportions.Thermal gradients were loaded through the geofoam by maintaining the temperature of -5℃, -10℃ or -15℃ at the top and 10℃ at the bottom of cylindrical samples. Test results show that with increasing use level of EPS beads, the thermo physical properties of the geofoam are improved, i.e., thermal resistance enhances, freezing rate and depth decrease. The addition of EPS bead also leads to the reduction of frost heave, which helps mitigate freeze thaw impact on the geofoam. EPS bead content of 0.5%1.0%(by mass) is considered as a favorable range to enhance the anti frost performance of the composite geofoam. The anti frost performance of the geofoam is related to the thermal isolation, hydrophobic and mechanical buffering properties of the EPS beads.

Key words: composite geofoam frost moisture transfer frost heave waste foundry sand expanded polystyrene(EPS) bead