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作 者:赵国权 孙文博 陈少军 冯波 ZHAO Guo-quan;SUN Wen-bo;CHEN Shao-jun;FENG Bo(CCCC Shanghai Dredging Co.,Ltd.,Shanghai 200136,China;CCCC National Engineering Research Center of Dredging Technology and Equipment Co.,Ltd.,Shanghai 201208,China)
机构地区:[1]上海交通建设总承包有限公司,上海200136 [2]中交疏浚技术装备国家工程研究中心有限公司,上海201208
出 处:《水运工程》2021年第2期155-159,共5页Port & Waterway Engineering
摘 要:依托大小嶝造地陆域形成及地基处理工程,通过试验区普通强夯与高速液压夯实工艺的现场试验对比研究,对2种施工工艺施工过程中夯坑沉降量、超静孔隙水压力和加固前后土层标准贯入击数进行检测。结果表明,采用2种工艺对吹填砂层加固后标贯值均满足不小于15击的要求,且液压强夯在4~6 m处中浅深度土层超静孔隙水压力值大于普通强夯,但普通强夯影响深度大于高速液压夯实工艺。高速液压夯实工艺适用于加固中浅深度吹填砂。Based on the Daxiaodeng land formation and foundation treatment project,we carry out the field-test comparative study on ordinary dynamic ramming and high-speed hydraulic ramming technology and test the standard penetration number of soil layers before and after reinforcement.The results show that the two processes can meet the design requirements of no less than 15 strokes after the blown sand layer is strengthened,and the ultra-static pore water pressure value at 4~6 m at mid-shallow depths by the hydraulic static tamping is greater than that by ordinary dynamic ramming.However,the impact of ordinary dynamic compaction is greater than that of high-speed hydraulic compaction.The high-speed hydraulic tamping process can be applied to the consolidation of the filled sand of mid-shallow depths.
关 键 词:普通强夯 高速液压夯实工艺 地基处理 超静孔隙水压力
分 类 号:U655.54[交通运输工程—港口、海岸及近海工程]
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