水工碾压混凝土施工质量控制研究与实践
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摘要
碾压混凝土筑坝技术以其施工速度快、工期短、造价低及良好的质量性能等优点得到迅猛发展和广泛应用。但其不同于常态混凝土的材料选配和施工工艺上的特点决定了其质量控制的复杂性和特殊性,如果施工措施不当或控制不严,就容易产生质量缺陷。本文从水工碾压混凝土性能特点出发,依据工序质量控制理论,并结合实际工程应用提出以工序质量控制为重点的有效的碾压混凝土施工质量控制方法和理论,为水电站工程管理、施工者在碾压混凝土施工方面提供管理思路和科学决策依据。
本文开篇阐述了作者的立题背景和施工质量控制的任务和方法,重点论述了工序质量控制的内容和步骤,接着分析水工碾压混凝土质量特点及施工质量控制要点,按碾压混凝土施工工序进行质量因素分析和质量控制方法研究,据此总结的实用性施工质量控制方法成果应用于乐滩水电站碾压混凝土施工实践,取得良好的工程质量,最后得出完善的管理体系保证基础上的工序质量控制可以确保碾压混凝土的施工质量的结论。
Owing to the merit of rapid construction, shorter working-day, lower cost and high quality, dam construction technique of roller compacted concrete(RCC) have been swift and violent develop and extensive use. The different characteristic of material selection and process engineering between RCC from normal concrete has determined the complexity and special on quality control. Once the RCC construction measure unsuitable or control not strict, the mass defect will occur easily. In this paper, performance characteristics and various factors that affect the quality of hydraulic RCC were analysed according to Processes Quality Control theory. By composing with real engineering, points in quality control of main processes and quality control measure of RCC were put forward, and these will provide the managemen train and the scientific basis of dicision to managers and builders of hydroelectric RCC project。
In the beginning of this paper, the background of research job were explained, the mission and method of construction quality control were discussed. The contentand step of Processes Quality Control theory were strengthened. Simultaneously, the characteristic of hydraulic RCC and the points in quality control were analysed, quality factor analysis and quality control method research were developed according to the processes of RCC construction Consequently, useful quality control method were observed, and this has been used for the RCC construction quality control of Letan hydropower station and get good engineering quality. Finally, come to a conclusion of that processes quality control which based on a perfect management system would densure RCC construction quality.
本文开篇阐述了作者的立题背景和施工质量控制的任务和方法,重点论述了工序质量控制的内容和步骤,接着分析水工碾压混凝土质量特点及施工质量控制要点,按碾压混凝土施工工序进行质量因素分析和质量控制方法研究,据此总结的实用性施工质量控制方法成果应用于乐滩水电站碾压混凝土施工实践,取得良好的工程质量,最后得出完善的管理体系保证基础上的工序质量控制可以确保碾压混凝土的施工质量的结论。
Owing to the merit of rapid construction, shorter working-day, lower cost and high quality, dam construction technique of roller compacted concrete(RCC) have been swift and violent develop and extensive use. The different characteristic of material selection and process engineering between RCC from normal concrete has determined the complexity and special on quality control. Once the RCC construction measure unsuitable or control not strict, the mass defect will occur easily. In this paper, performance characteristics and various factors that affect the quality of hydraulic RCC were analysed according to Processes Quality Control theory. By composing with real engineering, points in quality control of main processes and quality control measure of RCC were put forward, and these will provide the managemen train and the scientific basis of dicision to managers and builders of hydroelectric RCC project。
In the beginning of this paper, the background of research job were explained, the mission and method of construction quality control were discussed. The contentand step of Processes Quality Control theory were strengthened. Simultaneously, the characteristic of hydraulic RCC and the points in quality control were analysed, quality factor analysis and quality control method research were developed according to the processes of RCC construction Consequently, useful quality control method were observed, and this has been used for the RCC construction quality control of Letan hydropower station and get good engineering quality. Finally, come to a conclusion of that processes quality control which based on a perfect management system would densure RCC construction quality.
引文
[1] 梅锦煜,郑桂斌 我国碾压混凝土筑坝技术的新进展[J] 水力发电,2005(6),54~56
[2] 丛培经 工程项目管理[M] 北京:中国建筑工业出版社,2003,116~134
[3] 方坤河 碾压混凝土材料、结构与性能[M] 武汉:武汉大学出版社,2004,14~67
[4] 王秉钧 碾压混凝土质量检验与控制[J] 四川水力发电,1995(12),54~59
[5] 黄有爱 碾压混凝土坝工程质量控制及检测[J] 人民长江,1999(6),36~37
[6] 段云岭,郑桂水 碾压混凝土坝施工进度与质量控制的新措施[J] 水力发电,2002(2),19~23
[7] 朱素华,黄恩福 沙牌碾压混凝土高拱坝施工技术与质量控制[J] 水利水电技术,2004(10),31~34
[8] 李文伟 陈文耀 三峡工程三期围堰RCC配合比设计优化[J] 中国三峡建设,2002(10),12~16
[9] Olivrira,L.F.P;Moser,D.E.;Mussi,J.M.P;Andriolo,F.R. Salto Caxias 碾压混凝土坝材料和碾压混凝土控制[C] 成都:碾压混凝土筑坝技术国际会议论文集,1999年4月,139~146
[10] 路易斯.瑞孜.盖克尔等碾压混凝土质量控制[J] 水利水电快报,2001(5),1~3
[11] 杨锡银,滕东海,李善平 三峡三期RCC施工质量管理与控制[J] 中国三峡建设,2003(5),25~27
[12] DL/T5112-2000 水工碾压混凝土施工规范[S],6~23
[13] 邹剑平,田开艳 三峡三期RCC围堰改性混凝土施工工艺[J] 中国三峡建设,2004(4),27~29
[14] 杨宏伟 高抗裂碾压混凝土的材料优选及性能研究[J] 水电站设计,2003(3),41~46
[15] 能源部、水利部碾压混凝土筑坝推广领导小组 碾压混凝土筑坝——设计与施工[M] 北京:电子工业工业出版社,1990,77~90
[16] 孙恭尧等 高碾压混凝土重力坝[M] 北京:中国电力出版社,2004,11~13
[17] 彭友文,顾冲时,吴中如 碾压混凝土坝层面影响带厚度分析[J] 长江科学院院报,2005(4),59~61
[18] 庞立平,袁瑶才 变态混凝土施工技术的应用与发展[J] 红水河,2005(2),93~96
[19] 魏根成 三峡工程明渠截流与碾压混凝土围堰施工实践[J] 西北水电,2005(2),23~25
[20] 姜荣梅,覃理利,李家健 龙滩大坝碾压混凝土层间结合质量识别标准[J] 水力发电,2005(4),53~56
[21] 张国新,赵仕杰,梁建文 龙滩碾压混凝土重力坝高温季节施工的温度应力问题[J] 水力发电,2005(3),39~41
[22] 冯立生 碾压混凝土压实厚度对层面结合结合的影响[J] 红水河,2002(4),17~19
[23] 杨康宁 碾压混凝土坝施工[M] 中国水利水电出版社,1997年6月,13~25
[24] 管振祥,滕文彦,冯焕富 工程项目质量管理[M] 北京:中国建材工业出版社,2001,67~91
[25] 王毅 张驽 三峡工程三期碾压混凝土围堰快速施工研究[J] 中国三峡建设,2002(10),30~32
[26] 皇甫拴劳 乐滩水电站混凝土施工质量控制[J] 红水河,2006(2),91~96
[27] 刘数华,方坤河,曾力粉煤灰和硅粉对碾压混凝土抗裂性能的影响[J] 混凝土与水泥制品,2005(2),12~13
[28] 刘数华,方坤河,何林碾压混凝土筑坝及材料新进展[J] 南水北调与水利科技,2004(1),32~33
[29] 龙志宏 碾压混凝土坝施工质量控制[J] 贵州水力发电,2005(1),60~64
[30] 广西水电科学研究院 乐滩水电站扩建工程混凝土配合比优化试验报告[R],广西水电科学研究院,2005(4),12~14
[2] 丛培经 工程项目管理[M] 北京:中国建筑工业出版社,2003,116~134
[3] 方坤河 碾压混凝土材料、结构与性能[M] 武汉:武汉大学出版社,2004,14~67
[4] 王秉钧 碾压混凝土质量检验与控制[J] 四川水力发电,1995(12),54~59
[5] 黄有爱 碾压混凝土坝工程质量控制及检测[J] 人民长江,1999(6),36~37
[6] 段云岭,郑桂水 碾压混凝土坝施工进度与质量控制的新措施[J] 水力发电,2002(2),19~23
[7] 朱素华,黄恩福 沙牌碾压混凝土高拱坝施工技术与质量控制[J] 水利水电技术,2004(10),31~34
[8] 李文伟 陈文耀 三峡工程三期围堰RCC配合比设计优化[J] 中国三峡建设,2002(10),12~16
[9] Olivrira,L.F.P;Moser,D.E.;Mussi,J.M.P;Andriolo,F.R. Salto Caxias 碾压混凝土坝材料和碾压混凝土控制[C] 成都:碾压混凝土筑坝技术国际会议论文集,1999年4月,139~146
[10] 路易斯.瑞孜.盖克尔等碾压混凝土质量控制[J] 水利水电快报,2001(5),1~3
[11] 杨锡银,滕东海,李善平 三峡三期RCC施工质量管理与控制[J] 中国三峡建设,2003(5),25~27
[12] DL/T5112-2000 水工碾压混凝土施工规范[S],6~23
[13] 邹剑平,田开艳 三峡三期RCC围堰改性混凝土施工工艺[J] 中国三峡建设,2004(4),27~29
[14] 杨宏伟 高抗裂碾压混凝土的材料优选及性能研究[J] 水电站设计,2003(3),41~46
[15] 能源部、水利部碾压混凝土筑坝推广领导小组 碾压混凝土筑坝——设计与施工[M] 北京:电子工业工业出版社,1990,77~90
[16] 孙恭尧等 高碾压混凝土重力坝[M] 北京:中国电力出版社,2004,11~13
[17] 彭友文,顾冲时,吴中如 碾压混凝土坝层面影响带厚度分析[J] 长江科学院院报,2005(4),59~61
[18] 庞立平,袁瑶才 变态混凝土施工技术的应用与发展[J] 红水河,2005(2),93~96
[19] 魏根成 三峡工程明渠截流与碾压混凝土围堰施工实践[J] 西北水电,2005(2),23~25
[20] 姜荣梅,覃理利,李家健 龙滩大坝碾压混凝土层间结合质量识别标准[J] 水力发电,2005(4),53~56
[21] 张国新,赵仕杰,梁建文 龙滩碾压混凝土重力坝高温季节施工的温度应力问题[J] 水力发电,2005(3),39~41
[22] 冯立生 碾压混凝土压实厚度对层面结合结合的影响[J] 红水河,2002(4),17~19
[23] 杨康宁 碾压混凝土坝施工[M] 中国水利水电出版社,1997年6月,13~25
[24] 管振祥,滕文彦,冯焕富 工程项目质量管理[M] 北京:中国建材工业出版社,2001,67~91
[25] 王毅 张驽 三峡工程三期碾压混凝土围堰快速施工研究[J] 中国三峡建设,2002(10),30~32
[26] 皇甫拴劳 乐滩水电站混凝土施工质量控制[J] 红水河,2006(2),91~96
[27] 刘数华,方坤河,曾力粉煤灰和硅粉对碾压混凝土抗裂性能的影响[J] 混凝土与水泥制品,2005(2),12~13
[28] 刘数华,方坤河,何林碾压混凝土筑坝及材料新进展[J] 南水北调与水利科技,2004(1),32~33
[29] 龙志宏 碾压混凝土坝施工质量控制[J] 贵州水力发电,2005(1),60~64
[30] 广西水电科学研究院 乐滩水电站扩建工程混凝土配合比优化试验报告[R],广西水电科学研究院,2005(4),12~14