土石坝心墙宽级配砾质土质量控制方法研究
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摘要
本论文研究的宽级配砾质土指的是黏性粗粒土,是一种天然的土石混合料,其颗粒组成通常以5mm为界分为粗料和细料两部分,这两部分组成含量的变化直接影响到它的工程性质。宽级配砾质土是一种良好的防渗材料。
满拉水利枢纽工程拦河坝为宽级配砾质土心墙土石坝,坝顶高程4261.3m,最大坝高76.3m。针对目前国内尚没有宽级配砾质土作为高土石坝防渗体的实际施工经验,对土料进行了较为详细的试验研究工作。该土料具有较好的密实度、较高的抗剪强度和低压缩性。但是存在土料天然含水量偏低,黏粒含量较少、塑性较差、含砾量不均、渗透系数偏大等缺陷。
本论文对满拉心墙各项控制指标及施工中的质量控制进行了详细的论述。特别对于宽级配砾质土的压实控制方法,重点研究了用西尔夫三点击实法。实践证明三点击实法用于高海拔地区宽级配砾质土心墙的质量检测是非常适宜的。满拉工程心墙土料含砾量变化较大,对三点击实法有所改进,即快速测含水量和将测定全级配土料的压实度改为测定小于5mm土料的压实度。
The spreading gradation soil analyzed in the article is a cohesive coarse soil. It's a kind of crude soil-rook mixtures .It's often devided into fine material and coarse material by the save of 5mm and the charge of the two contents affects its project quality directly. It's also a better kind of permeation proof materials. As far as the methods of compaction control be concerned, the author studied Hilf three-point-compaction especially. It's proved that three-point-compaction used in the quality check of spreading gradation soil core wall is very suitable in high height above sea level areas. Because the gravel content in the core wall of Mania project changed greatly, the author improved the method of three-point-compaction, that is, measuring water content in medially and changing measuring the compaction degree of full gradation soil into measuring the compaction degree of the soil less than 5mm.
The dam of Mania hydroelectric project is a soil-rock dam with spreading gradation soil of core wall. The height of the dam apices is 4261. 3m and the maximal height is 76. 3m. As for lack of construction experience in using spreading gradation soil as the permeation proof body in our country at present, the author has studied the soil material carefully. The soil owns better density degree. Higher shearing resistance and low compaction, but it's crude water content is low, cohesive gravel content is small. Plasticity
is worse, grovel content isn't average and the coefficient of permeation is larger etc. The article is discussed all of controlling indexes and construction quality control clearly.
满拉水利枢纽工程拦河坝为宽级配砾质土心墙土石坝,坝顶高程4261.3m,最大坝高76.3m。针对目前国内尚没有宽级配砾质土作为高土石坝防渗体的实际施工经验,对土料进行了较为详细的试验研究工作。该土料具有较好的密实度、较高的抗剪强度和低压缩性。但是存在土料天然含水量偏低,黏粒含量较少、塑性较差、含砾量不均、渗透系数偏大等缺陷。
本论文对满拉心墙各项控制指标及施工中的质量控制进行了详细的论述。特别对于宽级配砾质土的压实控制方法,重点研究了用西尔夫三点击实法。实践证明三点击实法用于高海拔地区宽级配砾质土心墙的质量检测是非常适宜的。满拉工程心墙土料含砾量变化较大,对三点击实法有所改进,即快速测含水量和将测定全级配土料的压实度改为测定小于5mm土料的压实度。
The spreading gradation soil analyzed in the article is a cohesive coarse soil. It's a kind of crude soil-rook mixtures .It's often devided into fine material and coarse material by the save of 5mm and the charge of the two contents affects its project quality directly. It's also a better kind of permeation proof materials. As far as the methods of compaction control be concerned, the author studied Hilf three-point-compaction especially. It's proved that three-point-compaction used in the quality check of spreading gradation soil core wall is very suitable in high height above sea level areas. Because the gravel content in the core wall of Mania project changed greatly, the author improved the method of three-point-compaction, that is, measuring water content in medially and changing measuring the compaction degree of full gradation soil into measuring the compaction degree of the soil less than 5mm.
The dam of Mania hydroelectric project is a soil-rock dam with spreading gradation soil of core wall. The height of the dam apices is 4261. 3m and the maximal height is 76. 3m. As for lack of construction experience in using spreading gradation soil as the permeation proof body in our country at present, the author has studied the soil material carefully. The soil owns better density degree. Higher shearing resistance and low compaction, but it's crude water content is low, cohesive gravel content is small. Plasticity
is worse, grovel content isn't average and the coefficient of permeation is larger etc. The article is discussed all of controlling indexes and construction quality control clearly.
引文
[1]《中国水利发电工程》编审委员会编.中国水利发电工程·水工卷.中国电力出版社,2000
[2]杨荫华 高土石坝的筑坝材料.高土石坝筑坝关键技术问题研究成果汇编,1986
[3]俞介刚.用风化料做堆石坝防渗体.东北水利水电(1994.12)
[4]《中国水发电工程》编审委员会编.中国水利发电工程·施工卷.中国电力出版社,2000
[5]享庆国著.粗粒土的工程特性及应用.黄河水利出版社,1998
[6]雷泽宏.宽级配砾石土料填筑际准及质量控制方法研究.土石坝工程(1996.1-2)
[7]中国水利电科学研究院岩土所.砾石土宽级配土料作高堆石坝防渗体研究.土石坝工程(1996.1-2).—552~560
[8]雷泽宏.瀑布沟心墙砾质防渗料防渗与抗渗性能研究.水力发电(1995.1)
[9]享庆国,李鹏.土石坝的压实标准及应用中存在的问题.土石坝工程(2000.3)
[10]郭庆国,戴兵.结合小浪底土料谈几种质控方法特点及应用.土石坝工程(1997.4)
[11]钱家欢,殷宗则主编.土工原理与计算2版.中国水利水电出版社,1996
[12]蒋国澄.近代高土石坝结构的重要进展.高土石坝关键技术问题研究成果汇编,1986
[13]杨光煦.砾质土的防渗性能及其设计.土石工程(1993.3-4)
[14]刘振飞.水利水电工程设计与施工新技术全书(第一卷).海潮出版社,2001
[15]王建洪,贺如平.宽级配砾石土压实质量快速检测方法的探讨.土石坝工程(1995.3)
[16]水利电力部水利水电规划设计院.碾压式土石坝设计规范SDJ218—84.水利电力出版社,1985
[17]水利电力部水利水电规划设计院.碾压式土石坝施工技术规范SDJ213—83.水利电力出版社,1985
[18]杨荫华筑 土石料压实和质量控制.水利电力出版社,1992
[19]水利水电学研究院.水工建筑物抗震设计规范DL 5701—2000.中国电力出版社,2001
[20]饶锡保,何晓民,刘鸣.粗粒含量对砾质土工程性质影的研究.长江科学院院报
(1999,16(1))
[21]贺如平.袁光国.瀑布沟工程黑马Ⅰ区宽级配砾质土全料在修正普氏功能下的击实特性研究.水电工程研究(1997.3)
[22]甘霖,袁光国.粗粒土的三轴测试及其强度特性.水电工程研究(1996.1)
[23]袁光国,张伯骥 粗粒土料的防渗特性.水电工程研究(1998.4)
[24]杨荫华.关于确定砾石土最大于容重的简化方法.水利水电技术(1985.7)
[25]朱建华,游凡.宽级配砾石土坝料的防渗性及反滤.岩土工程学报(1983.6)
[26]于敬克.砾石土料颗粒组成对抗剪强度的影响.水电站设计(1991.3)
[27]蒋国澄.坝工土力学的主要进展.水利学报(1985.5)
[28]林昭.关于土石坝的几种筑坝材料.水利水电技术(1986.11)
[29]杜延龄.高堆石坝关键技术问题研究.水力发电(1998.3)
[30]黄文熙等.土的工程性质.水利电力出版社,1983
[31]李松林.粗粒土填筑体紧密度的检查方法.水利水电技术(1985.3)
[32]袁光国,张伯骥.粗粒土料的防渗性.水电工程研究(1998.4)
[33]郭庆国.关于粗粒土抗剪强度特性的试验研究.水利学报(1987.5)
[34]葛文辉.我国碾压式土石坝的发展.施工组织设计(1992.1)
[35]雷泽宏.砾质土防渗料的压实设计.水电工程研究(1995.2)
[36]周曾敏.鲁布格心墙堆石坝的设计特点.水力发电(1988.12)
[37]王金汉.鲁布格水电站土石坝施工.水力发电(1988.12)9
[38]杨成祝,云宪义,孙卫军,李润伟.满拉心墙土石坝设计.东北水利水电(1998.12)
[39]云宪义,鞠连义,王哓丽,林闯.满拉心墙土石坝设计.东北水利水电(1998.12)
[40]金云弼,冯宏,崔贤淑.满拉水利枢纽砾质轻壤土工程特性研究.东北水利水电(2000.8)
[41]任金明.满拉水利枢纽宽级配砾质土心墙堆石坝施工质量控制分析.施工组织设计(2001.2)
[42][日]日本电力土木技术协会编.陈慧远,徐关泉,李鸿俊,艾苑,张鸣歧译.最新土石坝工程学[修订版].水利水电出版社,1986
[43]廖朝雄,陈冬久.满拉水利枢纽拦河坝宽级配心墙土料填筑压实度控制.水利水电技术(2000.12)
[44]曹克明.国外土石坝工程用风化料作防渗体土料的主要经验介绍.土石坝工程(2001.1)
[45]郭庆国,李鹏.土石坝的压实标准及应用中存在的问题.土石坝工程(2000.3)
[46][日]日本土质工学会.郭熙灵,文丹译.粗粒料的现场压实.中国水利水电出版社,1999
[47]L.福斯布拉德.甘杰贤等译.土石填方的振动压实.人民交通出版社,1986
[48]Hilf.J. W:Compacted fill, Foundation Engineering Hand book edied by & Winterkorn & Fang, Van Nostand Reinford, 1975
[49]谢拉德.Trend and debatable aspects in embankment dam engneering.Water Power (1984. 12)
[50]International Commission on large Dams:Mater and Consttuction Methods for Embankment Dams and Cofferdams,Question 55, Transactions of the Fourteenth International Congress on Large Dams, Rio de Janeiro, Brazil, Vol. Ⅳ, 1982
[2]杨荫华 高土石坝的筑坝材料.高土石坝筑坝关键技术问题研究成果汇编,1986
[3]俞介刚.用风化料做堆石坝防渗体.东北水利水电(1994.12)
[4]《中国水发电工程》编审委员会编.中国水利发电工程·施工卷.中国电力出版社,2000
[5]享庆国著.粗粒土的工程特性及应用.黄河水利出版社,1998
[6]雷泽宏.宽级配砾石土料填筑际准及质量控制方法研究.土石坝工程(1996.1-2)
[7]中国水利电科学研究院岩土所.砾石土宽级配土料作高堆石坝防渗体研究.土石坝工程(1996.1-2).—552~560
[8]雷泽宏.瀑布沟心墙砾质防渗料防渗与抗渗性能研究.水力发电(1995.1)
[9]享庆国,李鹏.土石坝的压实标准及应用中存在的问题.土石坝工程(2000.3)
[10]郭庆国,戴兵.结合小浪底土料谈几种质控方法特点及应用.土石坝工程(1997.4)
[11]钱家欢,殷宗则主编.土工原理与计算2版.中国水利水电出版社,1996
[12]蒋国澄.近代高土石坝结构的重要进展.高土石坝关键技术问题研究成果汇编,1986
[13]杨光煦.砾质土的防渗性能及其设计.土石工程(1993.3-4)
[14]刘振飞.水利水电工程设计与施工新技术全书(第一卷).海潮出版社,2001
[15]王建洪,贺如平.宽级配砾石土压实质量快速检测方法的探讨.土石坝工程(1995.3)
[16]水利电力部水利水电规划设计院.碾压式土石坝设计规范SDJ218—84.水利电力出版社,1985
[17]水利电力部水利水电规划设计院.碾压式土石坝施工技术规范SDJ213—83.水利电力出版社,1985
[18]杨荫华筑 土石料压实和质量控制.水利电力出版社,1992
[19]水利水电学研究院.水工建筑物抗震设计规范DL 5701—2000.中国电力出版社,2001
[20]饶锡保,何晓民,刘鸣.粗粒含量对砾质土工程性质影的研究.长江科学院院报
(1999,16(1))
[21]贺如平.袁光国.瀑布沟工程黑马Ⅰ区宽级配砾质土全料在修正普氏功能下的击实特性研究.水电工程研究(1997.3)
[22]甘霖,袁光国.粗粒土的三轴测试及其强度特性.水电工程研究(1996.1)
[23]袁光国,张伯骥 粗粒土料的防渗特性.水电工程研究(1998.4)
[24]杨荫华.关于确定砾石土最大于容重的简化方法.水利水电技术(1985.7)
[25]朱建华,游凡.宽级配砾石土坝料的防渗性及反滤.岩土工程学报(1983.6)
[26]于敬克.砾石土料颗粒组成对抗剪强度的影响.水电站设计(1991.3)
[27]蒋国澄.坝工土力学的主要进展.水利学报(1985.5)
[28]林昭.关于土石坝的几种筑坝材料.水利水电技术(1986.11)
[29]杜延龄.高堆石坝关键技术问题研究.水力发电(1998.3)
[30]黄文熙等.土的工程性质.水利电力出版社,1983
[31]李松林.粗粒土填筑体紧密度的检查方法.水利水电技术(1985.3)
[32]袁光国,张伯骥.粗粒土料的防渗性.水电工程研究(1998.4)
[33]郭庆国.关于粗粒土抗剪强度特性的试验研究.水利学报(1987.5)
[34]葛文辉.我国碾压式土石坝的发展.施工组织设计(1992.1)
[35]雷泽宏.砾质土防渗料的压实设计.水电工程研究(1995.2)
[36]周曾敏.鲁布格心墙堆石坝的设计特点.水力发电(1988.12)
[37]王金汉.鲁布格水电站土石坝施工.水力发电(1988.12)9
[38]杨成祝,云宪义,孙卫军,李润伟.满拉心墙土石坝设计.东北水利水电(1998.12)
[39]云宪义,鞠连义,王哓丽,林闯.满拉心墙土石坝设计.东北水利水电(1998.12)
[40]金云弼,冯宏,崔贤淑.满拉水利枢纽砾质轻壤土工程特性研究.东北水利水电(2000.8)
[41]任金明.满拉水利枢纽宽级配砾质土心墙堆石坝施工质量控制分析.施工组织设计(2001.2)
[42][日]日本电力土木技术协会编.陈慧远,徐关泉,李鸿俊,艾苑,张鸣歧译.最新土石坝工程学[修订版].水利水电出版社,1986
[43]廖朝雄,陈冬久.满拉水利枢纽拦河坝宽级配心墙土料填筑压实度控制.水利水电技术(2000.12)
[44]曹克明.国外土石坝工程用风化料作防渗体土料的主要经验介绍.土石坝工程(2001.1)
[45]郭庆国,李鹏.土石坝的压实标准及应用中存在的问题.土石坝工程(2000.3)
[46][日]日本土质工学会.郭熙灵,文丹译.粗粒料的现场压实.中国水利水电出版社,1999
[47]L.福斯布拉德.甘杰贤等译.土石填方的振动压实.人民交通出版社,1986
[48]Hilf.J. W:Compacted fill, Foundation Engineering Hand book edied by & Winterkorn & Fang, Van Nostand Reinford, 1975
[49]谢拉德.Trend and debatable aspects in embankment dam engneering.Water Power (1984. 12)
[50]International Commission on large Dams:Mater and Consttuction Methods for Embankment Dams and Cofferdams,Question 55, Transactions of the Fourteenth International Congress on Large Dams, Rio de Janeiro, Brazil, Vol. Ⅳ, 1982