宝汉高速公路沥青路面施工质量动态控制技术研究
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摘要
施工质量优劣是引起沥青路面破坏的重要原因。沥青混凝土路面施工质量控制是一个动态的过程,对全过程进行控制,需要根据施工过程中指标控制的偏差情况及时调整,使生产处于受控状态,以保证路面工程质量。因此,把沥青路面施工动态控制纳入“统计过程控制”的范畴,将沥青路面视为一种产品,科学地利用统计原理,对沥青路面施工过程进行“实时监控”,具有重要的实用价值。本文依托宝汉高速公路宝鸡至陕甘界沥青路面工程,以大量试验和监控数据为基础,利用统计过程控制理论方法,进行了以下研究:
对宝汉高速公路水泥稳定碎石基层、底基层和沥青混合料面层级配范围进行了优化。采用标准击实和振动成型两种方法,对比确定了水泥稳定碎石基层、底基层最佳水泥剂量、最佳含水量和最大干密度等控制指标。针对优化后沥青混合料级配,进行了马歇尔试验和路用性能检验并试铺了试验段,确定了沥青混合料面层的质量控制指标。
对统计过程控制的具体内容和方法以及统计过程控制图进行了详细分析,结合沥青混合料生产特点对统计过程关键指标进行了分析,确定了过程控制的标准和方法,为沥青路面施工过程质量控制提供了依据。
应用统计过程控制原理,对施工过程中关键性指标进行了监控,分析了异常数据产生原因并调整使过程受控。最后针对宝汉高速公路三个路面标沥青拌合站黑匣子监控数据进行了分析。
本文研究为宝汉高速公路宝鸡至陕甘段沥青路面施工工程中质量控制提供了指导依据,改进了混合料生产管理方法,提高了混合料的产品质量以及公路路面施工质量管理水平。
Bad construction quality control is an important reason of asphalt pavement damage. The Quality control of asphalt concrete pavement construction is a dynamic process, which requires throughout the whole process of it. To ensure the quality of pavement engineering, according to the deviation be found, it have to adjust the production in time. Therefore, the dynamic control of the asphalt pavement construction should be take as part of the Statistical Process Control, and the asphalt pavement should also be seen as an product. Using the statistical knowledge scientifically and it has important practical value of real-time monitoring of asphalt pavement construction. This article relying on this highway Baoji Shaanxi and Gansu Han Bao border road projects to a large number of test and monitoring data, using the methods of statistical process control theory, for the following three aspects:
First, Bao Han Cement Treated Base, sub-base and asphalt surface layer of three-level grading curve with the scope and optimized. Cement stabilized gravel, sub-base compaction and vibration using standard molding compared two methods to determine the best dosage of cement, the best water content and maximum dry density control targets. Using optimized graded asphalt mixture and the Marshall test section of paved to finalize the surface layer of asphalt mixture quality control indicators.
Secondly, the specific content of statistical process control and methods of in-depth study, and statistical process control tools-control charts for detailed analysis of key indicators through the analysis of statistical process and the production of asphalt mixtures with its own characteristics, to determine the production process in the process control standards and methods for the construction to provide a valuable basis for guiding.
Again, in the road production of the three tenders application of statistical process control theory applied to the key indicators to monitor, analyze causes of abnormal data process and adjust the process control. Finally, Po Hon whole section of highway traffic section of the subject of three road asphalt mixing plant monitoring data to analyze the black box, so that cause of the exception under control adjusted so that the entire section of the final asphalt surface construction process in a "controlled" state.
This study was Po Hon Shaanxi-Gansu section of a highway project in Baoji to the production of statistical process control provides guidance on the basis of the production mix can improve the management methods to improve the quality of products mixture to improve the quality of highway and road construction management.
对宝汉高速公路水泥稳定碎石基层、底基层和沥青混合料面层级配范围进行了优化。采用标准击实和振动成型两种方法,对比确定了水泥稳定碎石基层、底基层最佳水泥剂量、最佳含水量和最大干密度等控制指标。针对优化后沥青混合料级配,进行了马歇尔试验和路用性能检验并试铺了试验段,确定了沥青混合料面层的质量控制指标。
对统计过程控制的具体内容和方法以及统计过程控制图进行了详细分析,结合沥青混合料生产特点对统计过程关键指标进行了分析,确定了过程控制的标准和方法,为沥青路面施工过程质量控制提供了依据。
应用统计过程控制原理,对施工过程中关键性指标进行了监控,分析了异常数据产生原因并调整使过程受控。最后针对宝汉高速公路三个路面标沥青拌合站黑匣子监控数据进行了分析。
本文研究为宝汉高速公路宝鸡至陕甘段沥青路面施工工程中质量控制提供了指导依据,改进了混合料生产管理方法,提高了混合料的产品质量以及公路路面施工质量管理水平。
Bad construction quality control is an important reason of asphalt pavement damage. The Quality control of asphalt concrete pavement construction is a dynamic process, which requires throughout the whole process of it. To ensure the quality of pavement engineering, according to the deviation be found, it have to adjust the production in time. Therefore, the dynamic control of the asphalt pavement construction should be take as part of the Statistical Process Control, and the asphalt pavement should also be seen as an product. Using the statistical knowledge scientifically and it has important practical value of real-time monitoring of asphalt pavement construction. This article relying on this highway Baoji Shaanxi and Gansu Han Bao border road projects to a large number of test and monitoring data, using the methods of statistical process control theory, for the following three aspects:
First, Bao Han Cement Treated Base, sub-base and asphalt surface layer of three-level grading curve with the scope and optimized. Cement stabilized gravel, sub-base compaction and vibration using standard molding compared two methods to determine the best dosage of cement, the best water content and maximum dry density control targets. Using optimized graded asphalt mixture and the Marshall test section of paved to finalize the surface layer of asphalt mixture quality control indicators.
Secondly, the specific content of statistical process control and methods of in-depth study, and statistical process control tools-control charts for detailed analysis of key indicators through the analysis of statistical process and the production of asphalt mixtures with its own characteristics, to determine the production process in the process control standards and methods for the construction to provide a valuable basis for guiding.
Again, in the road production of the three tenders application of statistical process control theory applied to the key indicators to monitor, analyze causes of abnormal data process and adjust the process control. Finally, Po Hon whole section of highway traffic section of the subject of three road asphalt mixing plant monitoring data to analyze the black box, so that cause of the exception under control adjusted so that the entire section of the final asphalt surface construction process in a "controlled" state.
This study was Po Hon Shaanxi-Gansu section of a highway project in Baoji to the production of statistical process control provides guidance on the basis of the production mix can improve the management methods to improve the quality of products mixture to improve the quality of highway and road construction management.
引文
[1]沙庆林.高速公路沥青路面早期破坏现象及预防[M].北京:人民交通出版社,2006.
[2]张晓冰等.我国高速公路沥青路面厚度现状调查分析[J].河南:河南交通科技,1999
[3]刘洪海等.沥青混合料拌和均匀性的理论研究[R].第五届交通运输领域国际学术会议论文集2005.6.25
[4]廖卫东,刘洪海等.STRATA应力吸收层的材料特征与施工控制技术[J].北京:公路2005.5
[5]陈庵,刘洪海Superpave混合料的材料特征与施工控制技术[M].北京:建筑机械技术与管理2003.5
[6]闻邦椿等.振动机械的理论与动态设计方法[M].北京:机械工业出版社.2001.11
[7]沈金安.关于沥青混合料的均匀性和离析问题[J].北京:公路交通科技2001.12
[8]富珍.统计过程控制(SPC)技术在质量管理中的应用研究及实现[D].武汉:武汉理工大学.2006
[9]赵艳东.统计过程控制(SPC)方法在印刷质量管理中的应用研究[D].武汉:武汉大学.2005,5
[10]张新天,李荣均,罗晓辉,公路工程质量管理系统[M],北京:中国水利水电出版社,2003
[11]何广明.全面质量管理(TQM)综合法:通过日本5-S和ISO9000实施全面质量管理[M].北京:中国标准出版社,1998
[12]于新,黄晓明.动态控制技术在江苏省高速公路沥青路面建设中的应用[J].北京:公路交通科技.2006,10
[13]FHWA.In Sight into Pavement Preservation a Compendium.Pavement Preservation[J]. State of the Practice.2001
[14]K.Chatti,D.Lee.Development of Preventive Maintenance Strategy for Minimizing Roughness Related Pavement Damage[J].Transportation Research Record.2001
[15]Nassar,Khaled M.;Nassar,Walid M.;Hegab,Mohamed Y.Evaluating Cost Overruns of Asphalt Paving Project Using Statistical Process Control Methods[J] Journal of Construction Engineering and Management,v 131,n 11,November,2005
[16]张肖宁.沥青混凝土路面施工的全面质量管理[J].北京:公路.2005
[17]江苏省地方标准:江苏省高性能沥青路面施工技术规范[S].2008.1
[18]辽宁省高等级公路建设局,哈尔滨工业大学.沈大高速公路改扩建工程路基压实质量过程控制技术的研究[R].2005.]
[19]扈慧敏.沥青路面施工质量变异性研究[D].西安:长安大学,2005
[20]刘洪海.高性能沥青混合料材料特性与施工技术研究[D]武汉:武汉理工大学,2008.4
[21]中华人民共和国行业标准.公路路面基层施工技术规范[S].北京:人民交通出版社,2000
[22]陈志强,王铁法.水泥稳定碎石基层混合料的优化设计研究[J]长沙:中外公路,2010.8
[23]施建刚等.水泥稳定碎石基层混合料的优化设计[J].浙江:现代交通技术,2007.8
[24]刘维国等.振动压实法对水泥稳定碎石混合料最佳含水量和最大干密度影响的应用研究[J].内蒙古:内蒙古公路与运输.2007.9
[25]郝培文等.SUPERPAVE级配禁区对沥青混合料性能影响[J]长沙:中外公路,2005.8.
[26]牛俊明等.排水性沥青混合料抗滑层设计方法研究[J].西安.西安公路交通大学学报.1997.3
[27]郑晓光等.水泥填料对沥青混合料性能影响的试验分析[J]]上海:建筑材料学报,2005.10
[28]中华人民共和国行业标准,公路沥青路面设计规范[S].北京:人民交通出版社,2006
[29]牛俊明等.排水性沥青抗滑层混合料的路用性能研究[J].淄博:石油沥青,1997.3
[30]中华人民共和国行业标准.公路沥青路面施工技术规范[S].北京:人民交通出版社,2004
[31]陆学元.AC-20沥青混合料路用性能优化[J]武汉:华中科技大学学报,2010.6
[32]谢晓刚.沥青稳定碎石基层(ATB30)的性能分析与研究[D]长沙:长沙理工大学,2007.4
[33]刘涛,黄立葵.沥青碎石混合料(ATB30)的级配试验与分析[J]中南公路工程,2006.4
[34]白于蓝.质量控制图设计及经济性研究[D],西安,西北工业大学2005.3
[35]王艳.统计控制技术在沥青路面施工质量控制中的应用[D]南京:东南大学,2004.12
[36]张肖宁.沥青路面施工质量控制与保证[M]北京:人民交通出版社,2009.5
[37]叶中辰.统计过程控制在沥青混合料生产中的研究[D].哈尔滨;哈尔滨工业大学,2007.7
[38]吴清,高俊芳.现代质量控制[M],西安,世界图书出版社,1998
[39]李海滨.沥青路面工程质量过程控制指标体系的研究[D],西安,长安大学,2006.5
[40]Saaty T L.The analytic hierarchy process Saaty T L.New York:Mcgraw-Hill,1980
[41]Mcgennis,R.B.;Anderson, R.M.;Kennedy, T.W;and Solaimanian,M Background of SUPERPAVE Asphalt Mixture Design Analgsis, Report No.FHWA-SA-95-003 [R], Federal Highway Administration,Washington,D.C.,1995
[42]Westrack Forensic Team.Performance of Coarse-Greded Mixes at Westrack-Premature Rutting,Report NO.FHWA-RD-99-134[R], Federal Highway Administration, Washington,D.C.,June1998
[43]刘建斌,张维铭.可变抽样区间的非参数控制图[J].北京:数理统计与管理,2002.7
[2]张晓冰等.我国高速公路沥青路面厚度现状调查分析[J].河南:河南交通科技,1999
[3]刘洪海等.沥青混合料拌和均匀性的理论研究[R].第五届交通运输领域国际学术会议论文集2005.6.25
[4]廖卫东,刘洪海等.STRATA应力吸收层的材料特征与施工控制技术[J].北京:公路2005.5
[5]陈庵,刘洪海Superpave混合料的材料特征与施工控制技术[M].北京:建筑机械技术与管理2003.5
[6]闻邦椿等.振动机械的理论与动态设计方法[M].北京:机械工业出版社.2001.11
[7]沈金安.关于沥青混合料的均匀性和离析问题[J].北京:公路交通科技2001.12
[8]富珍.统计过程控制(SPC)技术在质量管理中的应用研究及实现[D].武汉:武汉理工大学.2006
[9]赵艳东.统计过程控制(SPC)方法在印刷质量管理中的应用研究[D].武汉:武汉大学.2005,5
[10]张新天,李荣均,罗晓辉,公路工程质量管理系统[M],北京:中国水利水电出版社,2003
[11]何广明.全面质量管理(TQM)综合法:通过日本5-S和ISO9000实施全面质量管理[M].北京:中国标准出版社,1998
[12]于新,黄晓明.动态控制技术在江苏省高速公路沥青路面建设中的应用[J].北京:公路交通科技.2006,10
[13]FHWA.In Sight into Pavement Preservation a Compendium.Pavement Preservation[J]. State of the Practice.2001
[14]K.Chatti,D.Lee.Development of Preventive Maintenance Strategy for Minimizing Roughness Related Pavement Damage[J].Transportation Research Record.2001
[15]Nassar,Khaled M.;Nassar,Walid M.;Hegab,Mohamed Y.Evaluating Cost Overruns of Asphalt Paving Project Using Statistical Process Control Methods[J] Journal of Construction Engineering and Management,v 131,n 11,November,2005
[16]张肖宁.沥青混凝土路面施工的全面质量管理[J].北京:公路.2005
[17]江苏省地方标准:江苏省高性能沥青路面施工技术规范[S].2008.1
[18]辽宁省高等级公路建设局,哈尔滨工业大学.沈大高速公路改扩建工程路基压实质量过程控制技术的研究[R].2005.]
[19]扈慧敏.沥青路面施工质量变异性研究[D].西安:长安大学,2005
[20]刘洪海.高性能沥青混合料材料特性与施工技术研究[D]武汉:武汉理工大学,2008.4
[21]中华人民共和国行业标准.公路路面基层施工技术规范[S].北京:人民交通出版社,2000
[22]陈志强,王铁法.水泥稳定碎石基层混合料的优化设计研究[J]长沙:中外公路,2010.8
[23]施建刚等.水泥稳定碎石基层混合料的优化设计[J].浙江:现代交通技术,2007.8
[24]刘维国等.振动压实法对水泥稳定碎石混合料最佳含水量和最大干密度影响的应用研究[J].内蒙古:内蒙古公路与运输.2007.9
[25]郝培文等.SUPERPAVE级配禁区对沥青混合料性能影响[J]长沙:中外公路,2005.8.
[26]牛俊明等.排水性沥青混合料抗滑层设计方法研究[J].西安.西安公路交通大学学报.1997.3
[27]郑晓光等.水泥填料对沥青混合料性能影响的试验分析[J]]上海:建筑材料学报,2005.10
[28]中华人民共和国行业标准,公路沥青路面设计规范[S].北京:人民交通出版社,2006
[29]牛俊明等.排水性沥青抗滑层混合料的路用性能研究[J].淄博:石油沥青,1997.3
[30]中华人民共和国行业标准.公路沥青路面施工技术规范[S].北京:人民交通出版社,2004
[31]陆学元.AC-20沥青混合料路用性能优化[J]武汉:华中科技大学学报,2010.6
[32]谢晓刚.沥青稳定碎石基层(ATB30)的性能分析与研究[D]长沙:长沙理工大学,2007.4
[33]刘涛,黄立葵.沥青碎石混合料(ATB30)的级配试验与分析[J]中南公路工程,2006.4
[34]白于蓝.质量控制图设计及经济性研究[D],西安,西北工业大学2005.3
[35]王艳.统计控制技术在沥青路面施工质量控制中的应用[D]南京:东南大学,2004.12
[36]张肖宁.沥青路面施工质量控制与保证[M]北京:人民交通出版社,2009.5
[37]叶中辰.统计过程控制在沥青混合料生产中的研究[D].哈尔滨;哈尔滨工业大学,2007.7
[38]吴清,高俊芳.现代质量控制[M],西安,世界图书出版社,1998
[39]李海滨.沥青路面工程质量过程控制指标体系的研究[D],西安,长安大学,2006.5
[40]Saaty T L.The analytic hierarchy process Saaty T L.New York:Mcgraw-Hill,1980
[41]Mcgennis,R.B.;Anderson, R.M.;Kennedy, T.W;and Solaimanian,M Background of SUPERPAVE Asphalt Mixture Design Analgsis, Report No.FHWA-SA-95-003 [R], Federal Highway Administration,Washington,D.C.,1995
[42]Westrack Forensic Team.Performance of Coarse-Greded Mixes at Westrack-Premature Rutting,Report NO.FHWA-RD-99-134[R], Federal Highway Administration, Washington,D.C.,June1998
[43]刘建斌,张维铭.可变抽样区间的非参数控制图[J].北京:数理统计与管理,2002.7