垃圾土地基灌浆处理试验
|
摘要
通过现场灌浆试验,钻取灌浆处理后的水泥垃圾土样进行水泥质量分数的分析试验,得到一次灌浆能使水泥浆在垃圾土地基中较均匀分布,水泥质量分数达到约10%,二次灌浆能增加水泥质量分数约25%的结果。经过室内水泥垃圾土样28 d养护强度试验,发现即使水泥掺入量达到25%、养护60 d,得到的应力应变曲线仍呈硬化型,水泥垃圾土仍是松散体,没有形成固结体。灌浆前后垃圾土地基的静载荷试验表明,灌浆能明显改善垃圾土地基的承载特性,提高地基的承载力,但由于垃圾填埋场现场养护条件限制,二次灌浆后垃圾土地基的破坏表现为脆性特征。
Based on the in-situ grouting tests,the mass fraction of cement was analyzed by boring samples of municipal solid waste after cement grouting.The cement was uniformly distributed over the foundation of municipal solid waste,and the mass fraction of cement reached 10% after the first grouting and increased to 25% after the second grouting.Through the strength tests on laboratory cement-waste samples after curing of 28 days,the stress-strain relation of the cement-waste samples exhibited hardening characteristics even when the dosage of cement reached 25% and the curing age was 60 days,and the cement-waste samples were loose and not consolidated.The static load tests on the foundation of municipal solid waste before and after grouting indicated that the bearing properties of the foundation of municipal solid waste could be improved by grouting,and the bearing capacity was obviously raised.However,the failure mode of the foundation of municipal solid waste after the second grouting was brittle because of the restricted in-situ curing conditions.
Based on the in-situ grouting tests,the mass fraction of cement was analyzed by boring samples of municipal solid waste after cement grouting.The cement was uniformly distributed over the foundation of municipal solid waste,and the mass fraction of cement reached 10% after the first grouting and increased to 25% after the second grouting.Through the strength tests on laboratory cement-waste samples after curing of 28 days,the stress-strain relation of the cement-waste samples exhibited hardening characteristics even when the dosage of cement reached 25% and the curing age was 60 days,and the cement-waste samples were loose and not consolidated.The static load tests on the foundation of municipal solid waste before and after grouting indicated that the bearing properties of the foundation of municipal solid waste could be improved by grouting,and the bearing capacity was obviously raised.However,the failure mode of the foundation of municipal solid waste after the second grouting was brittle because of the restricted in-situ curing conditions.
引文
[1]杨明亮,骆行文,喻晓,等.金口垃圾填埋场内大型建筑物地基基础及安全性研究[J].岩石力学与工程学报,2005,24(4):628-637.
[2]衡涛,米海珍,杨文侠,等.兰州地区某工程垃圾地基土处理方法研究[J].甘肃科学学报,2007,19(1):140-145.
[3]张永军.生活垃圾杂填土对地基基础的危害及工程措施[J].天津建设科技,2001(1):45-46.
[4]王立彬,燕乔,毕明亮,等.深厚覆盖层防渗中墙幕结合关键技术[J].水利水电科技进展,2010,30(2):63-66.
[5]虞万霞,牢文科,王锦国.猴关岩微型地表地下联合水库成库条件分析[J].水资源保护,2009,25(2):69-71.
[6]郭敏丽,王金生,刘立才,等.非正规垃圾填埋场地下水污染控制技术比较[J].水资源保护,2009,25(4):28-36.
[7]阮龙飞,王永庆.中远船务启东海工基地坞口围堰工程的设计与施工[J].水利水电科技进展,2009,29(6):90-94.
[8]缪绪樟,曾鹏九,鄢泰宁,等.回填砂卵石层固结灌浆[J].水利水电科技进展,2008,28(4):60-64.
[9]赵元弘.小南海水库地震堰塞坝体防渗处理[J].水利水电科技进展,2008,28(5):39-44.
[10]刘顺义,李千,范洪国,等.建平白山水库坝址渗漏基流分析[J].水利水电科技进展,2010,28(s1):77-79.
[11]施建勇,冒俊.水泥垃圾土强度特性试验研究[J].岩土力学,2009,30(7):1951-1966.
[12]DIXON N,LANGER U,GOTTELAND P.Classification andmechanical behavior relationships for municipal solid waste:study using synthetic waste[J].Journal of Geotechnical andGeoenvironmental Engineering,2008,134(1):79-90.
[13]ZEKKOS D,BRAY J D,ATHANASOPOULOS G A,et al.Compositional andloading rate effects onthe shear strength ofmunicipal solid waste[C]//4thInternational Conference onEarthquake Geotechnical Engineering.Thessaloniki,Greece:Proceedings of ICEGE,2007.
[14]陈云敏,高登,朱斌.城市固体废弃物的复合指数应力-应变模型及其应用[J].岩土工程学报,2009,31(7):1020-1029.
[15]孙秀丽,孔宪京,邹德高,等.城市固体废弃物应力-应变模型研究[J].岩土工程学报,2008,30(5):726-731.
[16]旦增顿珠,介玉新,魏弋峰,等.垃圾土的强度特性试验研究[J].清华大学学报:自然科学版,2006,46(9):1538-1541.
[17]冒俊.人工改良垃圾土强度特性研究[D].南京:河海大学,2007.
[2]衡涛,米海珍,杨文侠,等.兰州地区某工程垃圾地基土处理方法研究[J].甘肃科学学报,2007,19(1):140-145.
[3]张永军.生活垃圾杂填土对地基基础的危害及工程措施[J].天津建设科技,2001(1):45-46.
[4]王立彬,燕乔,毕明亮,等.深厚覆盖层防渗中墙幕结合关键技术[J].水利水电科技进展,2010,30(2):63-66.
[5]虞万霞,牢文科,王锦国.猴关岩微型地表地下联合水库成库条件分析[J].水资源保护,2009,25(2):69-71.
[6]郭敏丽,王金生,刘立才,等.非正规垃圾填埋场地下水污染控制技术比较[J].水资源保护,2009,25(4):28-36.
[7]阮龙飞,王永庆.中远船务启东海工基地坞口围堰工程的设计与施工[J].水利水电科技进展,2009,29(6):90-94.
[8]缪绪樟,曾鹏九,鄢泰宁,等.回填砂卵石层固结灌浆[J].水利水电科技进展,2008,28(4):60-64.
[9]赵元弘.小南海水库地震堰塞坝体防渗处理[J].水利水电科技进展,2008,28(5):39-44.
[10]刘顺义,李千,范洪国,等.建平白山水库坝址渗漏基流分析[J].水利水电科技进展,2010,28(s1):77-79.
[11]施建勇,冒俊.水泥垃圾土强度特性试验研究[J].岩土力学,2009,30(7):1951-1966.
[12]DIXON N,LANGER U,GOTTELAND P.Classification andmechanical behavior relationships for municipal solid waste:study using synthetic waste[J].Journal of Geotechnical andGeoenvironmental Engineering,2008,134(1):79-90.
[13]ZEKKOS D,BRAY J D,ATHANASOPOULOS G A,et al.Compositional andloading rate effects onthe shear strength ofmunicipal solid waste[C]//4thInternational Conference onEarthquake Geotechnical Engineering.Thessaloniki,Greece:Proceedings of ICEGE,2007.
[14]陈云敏,高登,朱斌.城市固体废弃物的复合指数应力-应变模型及其应用[J].岩土工程学报,2009,31(7):1020-1029.
[15]孙秀丽,孔宪京,邹德高,等.城市固体废弃物应力-应变模型研究[J].岩土工程学报,2008,30(5):726-731.
[16]旦增顿珠,介玉新,魏弋峰,等.垃圾土的强度特性试验研究[J].清华大学学报:自然科学版,2006,46(9):1538-1541.
[17]冒俊.人工改良垃圾土强度特性研究[D].南京:河海大学,2007.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心