长江科学院院报 ›› 2020, Vol. 37 ›› Issue (8): 113-119.DOI: 10.11988/ckyyb.20190599

• 岩土工程 • 上一篇    下一篇

碾压方式对珊瑚砂地基工程特性的影响

王伟光1, 郝秀文2, 李婉1, 姚志华1   

  1. 1.空军工程大学 航空工程学院, 西安 710038;
    2.中铁北京工程局集团有限公司 机场工程分公司,北京 100097
  • 收稿日期:2019-05-23 出版日期:2020-08-01 发布日期:2020-09-01
  • 通讯作者: 姚志华(1983-),男,甘肃成县人,副教授,主要从事非饱和土及特殊土土力学理论研究及工程实践。E-mail:lightbright@163.com
  • 作者简介:王伟光(1996-),男,河北石家庄人,硕士研究生,主要从事岩土工程方面的研究工作。E-mail:18392371637@163.com
  • 基金资助:
    国家自然科学基金项目(11972374,51509257)

Influence of Rolling Mode on Engineering Characteristics ofCoral Sand Foundation

WANG Wei-guang1, HAO Xiu-wen2, LI Wan1, YAO Zhi-hua1   

  1. 1. School of Aeronautics Engineering, Air Force Engineering University, Xi’an 710038, China;
    2. AirportEngineering Branch of China Railway Beijing Engineering Bureau Group Co. , Ltd. , Beijing 100097, China
  • Received:2019-05-23 Published:2020-08-01 Online:2020-09-01

摘要: 以某机场吹填珊瑚砂地基加固工程为研究背景,针对吹填珊瑚砂地基的工程性质,采用振动碾压和冲击碾压2种方法对不同试验区域进行地基处理,结合多种现场原位检测手段,并实施沉降监测,分析和总结碾压方式对珊瑚砂地基力学变形特征的影响规律。试验结果表明:振动碾压20遍以上,加州承载比(CBR)可达38%;而经过30遍冲击碾压,CBR值仅为28%。经30遍振动碾压后,未修正的地基承载力特征值在270 kPa以上,土基反应模量达到106.68 MN/m3,且碾压沉降变形趋于稳定。碾压遍数相同时,振动碾压后的珊瑚砂地基承载力及抗变形能力明显高于冲击碾压处理区域,振动碾压法相比较于冲击碾压法更适宜于珊瑚砂地基处理。振动碾压区域的现场浸水试验结果表明珊瑚砂地基水理性质稳定,不易受到地表水变化对其变形性质的影响。研究结果为指导岛礁吹填珊瑚砂地基处理及类似工程提供借鉴和参考。

关键词: 珊瑚砂, 吹填地基, 振动碾压法, 力学变形特性, CBR

Abstract: The influence of compaction mode on the mechanical deformation performance of coral sand foundation is examined by means of in-situ detection and settlement monitoring. The reinforcement project for coral sand foundation of an airport is taken as a case study. In line with the engineering properties of reclaimed coral sand foundation, vibratory compaction method and impact compaction method are employed in foundation treatment in different test areas. Results show that the CBR (California Bearing Ratio) could reach 38% after 20 times of vibration compaction, whereas after 30 times of impact rolling, the CBR value is only 28%. After 30 times of vibration rolling, the uncorrected characteristic value of foundation bearing capacity is above 270 kPa, the response modulus of soil foundation is up to 106.68 MN/m3, and the rolling-induced settlement deformation tends to be stable. Under the same number of times of compaction, the bearing capacity and deformation resistance of the foundation after vibration compaction are obviously higher than those after impact compaction, indicating that vibration compaction is more suitable for coral sand foundation treatment than impact compaction. The in-situ immersion test in the vibratory rolling area shows that coral sand foundation is not easily affected by surface water changes in terms of deformation properties. The research results can be used as reference in guiding the foundation treatment of reclaimed coral sand foundation and similar projects.

Key words: coral sand, reclaimed foundation, vibratory compaction method, physical deformation property, CBR

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