布袋注浆桩处理铁路路基软弱地基的应用研究
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摘要
布袋注浆桩法作为新型的软土地基处理方法,在铁路工程建设中得到了一定的应用,并取得了良好的经济效益和社会效益。同时,布袋注浆桩法具有造价低、安全环保、施工期短等特点,使得该法具有一定的推广应用空间。但是,布袋注浆桩加固技术还有许多值得研究的问题,例如布袋注浆桩的施工设备、施工参数,布袋注浆桩复合地基的设计方法、沉降计算方法、地基工作性状等等。
本文在归纳总结前人已有成果的基础上,依托某沿海铁路工程和上海地区某既有铁路增建二引工程,通过室内外试验和理论分析,重点对以下问题进行了研究:
首先,通过试桩工艺试验和总结工程实践经验,研究了布袋注浆桩的施工工艺,包括施工机具、成桩材料、施工参数、质量控制措施等等,同时对布袋注浆桩的成桩特性进行了一些研究,主要包括成桩质量、桩体强度等方面,验证了施工工艺的可行性,也为布袋注浆桩应用于软土地基加固提供了参考。
其次,开展布袋注浆桩复合地基的现场工程试验,通过设置测试断面,埋设相关测试设备,分析了布袋注浆桩加固测试断面的数据,研究了布袋注浆桩复合地基特性。
最后,在总结其它复合地基承载特性前提下,对布袋注浆桩复合地基的设计方法做了总结。同时,探讨了布袋注浆桩复合地基的沉降计算方法,并辅以计算实例,进而对布袋注浆桩复合地基的性状做了分析,得出了一些结论。
As a new treatment method of soft foundation, bag-grouting pile method has been used in railway engineering construction to some extent, and achieved good economic and social benefits. At the same time, bag-grouting pile method has the advantages of low cost, safety and environmental protection, short construction period and other characteristics, the method has great popularization and application space. However, bag-grouting pile reinforcement technology has many problems needed to be studied, such as bag-grouting pile construction equipment, construction parameters, the bag pile grouting pile composite foundation, settlement calculation method, design method of foundation work traits etc.
After a summary of the previous work, relying on a coastal railway engineering and an existing railway two drainage project in Shanghai bag grouting pile reinforcement section, through indoor experiment and theoretical analysis, focused on the following issues:
(1) First of all, through pile technology testing and summarizes the practical experience, study the bag grouting pile construction technology, including construction machinery, pile material, construction parameters, quality control measures and so on. At the same time, studied the bag grouting pile properties, including the quality of pile, pile strength etc., Not only validation of the feasibility of the construction process, but also provides reference for the bag-grouting pile applied to soft soil foundation reinforcement.
(2) Secondly, carry out bag-grouting pile composite foundation field engineering test, through setting the test section and burying test equipment, contrast data of with and without using the bag-grouting pile test cross section, study on characteristics of bag-grouting pile composite foundation.
(3) Finally, under the premise of summing up the bearing properties of other composite foundations, summarized the bag-grouting pile composite foundation design methods. At the same time, discussed the bag grouting pile settlement calculation methods of composite foundation, and supplemented by examples, Then analyzed the bag-grouting pile composite foundation bearing capacity, and some conclusions are obtained.
本文在归纳总结前人已有成果的基础上,依托某沿海铁路工程和上海地区某既有铁路增建二引工程,通过室内外试验和理论分析,重点对以下问题进行了研究:
首先,通过试桩工艺试验和总结工程实践经验,研究了布袋注浆桩的施工工艺,包括施工机具、成桩材料、施工参数、质量控制措施等等,同时对布袋注浆桩的成桩特性进行了一些研究,主要包括成桩质量、桩体强度等方面,验证了施工工艺的可行性,也为布袋注浆桩应用于软土地基加固提供了参考。
其次,开展布袋注浆桩复合地基的现场工程试验,通过设置测试断面,埋设相关测试设备,分析了布袋注浆桩加固测试断面的数据,研究了布袋注浆桩复合地基特性。
最后,在总结其它复合地基承载特性前提下,对布袋注浆桩复合地基的设计方法做了总结。同时,探讨了布袋注浆桩复合地基的沉降计算方法,并辅以计算实例,进而对布袋注浆桩复合地基的性状做了分析,得出了一些结论。
As a new treatment method of soft foundation, bag-grouting pile method has been used in railway engineering construction to some extent, and achieved good economic and social benefits. At the same time, bag-grouting pile method has the advantages of low cost, safety and environmental protection, short construction period and other characteristics, the method has great popularization and application space. However, bag-grouting pile reinforcement technology has many problems needed to be studied, such as bag-grouting pile construction equipment, construction parameters, the bag pile grouting pile composite foundation, settlement calculation method, design method of foundation work traits etc.
After a summary of the previous work, relying on a coastal railway engineering and an existing railway two drainage project in Shanghai bag grouting pile reinforcement section, through indoor experiment and theoretical analysis, focused on the following issues:
(1) First of all, through pile technology testing and summarizes the practical experience, study the bag grouting pile construction technology, including construction machinery, pile material, construction parameters, quality control measures and so on. At the same time, studied the bag grouting pile properties, including the quality of pile, pile strength etc., Not only validation of the feasibility of the construction process, but also provides reference for the bag-grouting pile applied to soft soil foundation reinforcement.
(2) Secondly, carry out bag-grouting pile composite foundation field engineering test, through setting the test section and burying test equipment, contrast data of with and without using the bag-grouting pile test cross section, study on characteristics of bag-grouting pile composite foundation.
(3) Finally, under the premise of summing up the bearing properties of other composite foundations, summarized the bag-grouting pile composite foundation design methods. At the same time, discussed the bag grouting pile settlement calculation methods of composite foundation, and supplemented by examples, Then analyzed the bag-grouting pile composite foundation bearing capacity, and some conclusions are obtained.
引文
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[2]何世秀,李斌.排水固结法处理软土地基的效果预估[J].土工基础,2008,05:44-45.
[3]靳华春.浅谈公路软土地基的处理方法[J].中小企业管理与科技(下旬刊),2010,07:168.
[4]龚晓南.复合地基理论及工程应用[M].北京:中国建筑工业出版社,2007.
[5]翟建华.CFG桩复合地基工作机理及沉降计算方法研究[D].中国地质大学(北京)硕士学位论文,2006.
[6]俞皓.粉喷桩在江阴港区铁路软基处理中的应用与研究[D].中南大学硕士学位论文,2010.
[7]杨凤桐.布袋桩在软土地基中的应用[J].山西建筑,2009,35(7):120.
[8]李明.布袋注浆桩在高速铁路软土地基加固中的应用[J].石家庄铁道学院学报,2006,19(3):134-137.
[9]冯玉国.土工布袋桩在铁路桥涵地基处理中的应用[J].探矿工程(岩土钻掘工程),2005增刊:86-87.
[10]黄晓晖.布袋注浆桩复合地基沉降特性分析[J].土工基础,2010,24(2):14-16.
[11]董慧安等.加固液化砂土地基的布袋注浆桩法[J].路基工程,2000,05:47-48.
[12]郑元沁等.布袋注浆桩在挡土墙地基加固中的应用[J].广东土木与建筑,2008(10):23-24.
[13]韩文军等.水泥砂浆布袋桩在厦深铁路软基层处理的作用[J].科学时代,2010(7):30-31.
[14]葛先飞.布袋注浆桩在广深四线软土地基中的应用[J].资源环境与工程,2007,21(4):394-396.
[15]陈效星.布袋注浆桩在菏日复线挡土墙地基加固中的应用[J].路基工程,2004(5):55-57.
[16]周尧.沿海地区深厚软土中布袋注浆桩地基处理技术应用研究[D].中南大学硕士学位论文,2010.
[17]丁光文,叶春林.布袋注浆桩在深厚层软土地基加固中的应用[J].岩土工程技术,2007,05:239-242.
[18]叶春林.布袋注浆桩在深厚层夹层软基处理中的应用[J].铁道工程学报,2008,04:32-36.
[19]余金海.软土地区布袋注浆成桩施工工法及单价分析[J].水利建设与管 理,2009,11:20-23.
[20]李兴远.布袋注浆桩施工工艺及造价指标分析[J].铁路工程造价管理,2008,04:22-24.
[21]周文盛.浅谈水泥搅拌桩的设计计算[J].山西建筑,2008,10:118-119.
[22]杨顺安等.软土理论与工程[M].北京:地质出版社,2000.
[23]洪昌地.路堤下注浆桩复合地基加固机理及沉降计算方法研究[D].河海大学硕士学位论文,2006.
[24]龚晓南.地基处理技术发展与展望[M].北京:中国水利水电出版社,2004.
[25]Abbs A F. A Pile Reinfoeced Earth Foundation for an Oil Storage Tank. Proceeding of the International Conference, Paris.1984:13-18.
[26]H. Ahnberg & G. Holm.Stabilization of some Swedish organic soils with different types ofbinder [J]. Dry Mix Methods for beeping stabilization, Bredenberg,1999.
[27]Bowles J E. Foundation analysis and desing [M]. New York:Mc Garw-Hill Book CoMPany.1998.
[28]Miura, N. Taesiri, Y. Koga and Nishida. K. Practice of Improvement of Ariake clay bymixing admixtures[C]. Proceedings of the International Symposium on Shallow Sea andLow Land, Saga University,Saga,Japan,1998,159-168.
[29]Masaaki Gotoh. Study on soil properties affecting the strength of cement treated soils [J].Grouting and Deep Mixing Cerashi& Shibazaki (eds),1996 Balkema, Rotterdam.
[30]Hewlett W. J. The analysis and design of bridge approach support Piling[R]. Partl Projeet RePort. Cambridge University Engineering DePartment.
[31]饶为国,桩网复合地基沉降机理与设计方法研究[D].北京交通大学博士学位论文,2002.
[32]连峰.桩网复合地基承载机理及设计方法[D].浙江大学博士学位论文,2009.
[33]陈祥福.沉降计算理论及工程实例[M].北京:北京:科学出版社,2005.
[34]龚晓南.复合地基设计与施工指南[M].北京:人民交通出版社,2003.
[35]曾小波.CFG桩-帽-网复合地基性状研究[D].西南交通大学硕士学位论文,2006.
[36]龚晓南.广义复合地基理论及工程应用[J].岩土工程学报,2007,01:1-13.
[37]杨立,崔文志.复合地基沉降计算的现状分析[J].山西建筑,2006,05:87-88.
[38]程宏生.CFG桩复合地基设计理论与应用[D].中南大学硕士学位论文,2010.
[39]薛新华,魏永幸.桩-网结构地基沉降计算方法综述[J].西部探矿工程,2011,05:6-8.
[40]赵明华等.碎石桩复合地基复合模量极限值分析[J].中南大学学报(自然科学版),2009,06:1718-1723.
[41]杨立,崔文志.复合地基沉降计算的现状分析[J].山西建筑,2006,05:87-88.
[42]郭佳奇,刘希亮.复合地基加固区复合模量计算公式的改进[J].河南理工大学学报(自然科学版),2007,05:580-583.
[43]熊自新,陈宏伟.复合地基沉降计算研究[J].科技经济市场,2010,03:32-33.
[44]王生俊.长螺旋钻孔泵压素混凝土桩复合地基沉降计算方法研究[J].科技信息,2011,14:308-309.
[45]吴宗皓.复合地基沉降计算等效实体法分析[J].中国科技信息,2006,09:100-101.
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