气候对公路的影响及公路气候区划方案研究
|
摘要
公路是一种处于自然环境之中的人工建筑物,其建设、运营以及养护均受到各种自然因素的影响。气候是最为活跃的自然因素之一,它对公路的影响尤为显著,一直为公路工作者所关注。在公路规划、设计、施工以及养护工作中,必须做到与当地气候条件相适应,只有这样,才能保障公路应有的使用寿命和正常的服务水平。因此,需要全面了解气候对公路的作用机理及区域内影响公路的气候条件的异同性。
通过回顾国内外气候对公路影响研究的成果,系统地总结了太阳辐射、热量条件、水分条件以及风等主要气候要素对公路的影响,得出太阳辐射、高温过程、低温过程、高低温的循环变化过程、潮湿情况、干湿循环变化过程、潮湿或降水与高温组合过程、潮湿或降水与冻融循环组合过程等气候过程以及极端低温、风等是影响公路的主要气候过程和气候条件。针对对公路有显著影响的气候条件和气候过程,构建了相应的气候评价指标和指标体系,计算分析了部分主要指标在全国的分布情况。
借助自然区划的研究方法,开展了公路气候区划的研究,提供从总体上认识我国影响公路的气候条件异同性的平台。从公路气候区划功能和需求分析入手,提出了公路对气候区划三个层次的需求,即基本需求、综合需求和宏观需求。依据区划的功能和需求,研究制定了区划的原则体系、方案体系、方法体系以及指标体系,建立了公路气候区划体系框架。
依据公路气候区划体系框架,明确提出了各具体分区区划的目的,选择了合适的区划指标,利用聚类分析、指标划分和图层叠置等方法,制定了路基气候影响分区、沥青路面气候影响分区、水泥混凝土路面气候影响分区、公路施工气候影响分区以及公路气候区划等方案。这些方案与相关气候评价指标分布图一同构成的公路气候区划方案体系,为全面了解我国气候条件对公路的影响提供依据,对公路工程活动具有指导意义。
Highway is a kind of man-made structure in natural environment,whoseconstructing and maintaining are impacted by various natural factors.Climate,as anactive natural factor,is widely concerned by highway researchers and participators forits prominent effect on highway.Planning,designing,constructing and maintaining ofhighway should adapt to the local climatic conditions,which is the foundation fornormal life and service level of highway.Thus it is necessary to study the mechanismof impacts of climate on highway and similarities and differences of climaticconditions about highway among regions.
Through review related achievements allover the world,this paper summarizedimpact of solar radiations,thermal conditions,moisture conditions and wind onhighway.It is showed that solar radiations,high-temperature process,low-temperatureprocess,freeze-thaw cycle,moisture condition,dry-wet cycle,process of hightemperature with moisture or precipitation,process of freeze-thaw cycle withmoisture or precipitation,extremely low temperature and wind are prominent climaticProcesses and conditions which have notable impacts on highway.Evaluatingindicators for each climatic processes or conditions are built and distributions of someindicators among China are studied through calculations.
Using methodology of natural regionalization,this paper studies climaticregionalization for highway,which provides a platform to study similarities anddifferences of climatic conditions about highway among China.Through analysis ofregionalization functions and highway demands,requirements in three levels ofhighway on climatic regionalization are found,which are basic requirements,integrated requirements and macro requirements.According these requirements,skeleton of China climatic regionalization for highway are found,which includesprinciple system,structure of regionalization,methodologies and indicator system.
According to structure of China climatic regionalization for highway,purposesof each included regionalization or zoning are defined and regionalizing indicators are selected.Climatic zoning for subgrade,asphalt pavement,PCC pavement andhighway construction and climatic regionalization for highway are finally madethrough methodologies of cluster analysis,division based on indicators and layersuperposing analysis.These zonings and regionalization and contour maps of relatedclimatic indicators,which compose China climatic regionalization for highway,provide references for studying impact of China's climatic conditions on highway andhave guiding significance for practices of highway engineering.
通过回顾国内外气候对公路影响研究的成果,系统地总结了太阳辐射、热量条件、水分条件以及风等主要气候要素对公路的影响,得出太阳辐射、高温过程、低温过程、高低温的循环变化过程、潮湿情况、干湿循环变化过程、潮湿或降水与高温组合过程、潮湿或降水与冻融循环组合过程等气候过程以及极端低温、风等是影响公路的主要气候过程和气候条件。针对对公路有显著影响的气候条件和气候过程,构建了相应的气候评价指标和指标体系,计算分析了部分主要指标在全国的分布情况。
借助自然区划的研究方法,开展了公路气候区划的研究,提供从总体上认识我国影响公路的气候条件异同性的平台。从公路气候区划功能和需求分析入手,提出了公路对气候区划三个层次的需求,即基本需求、综合需求和宏观需求。依据区划的功能和需求,研究制定了区划的原则体系、方案体系、方法体系以及指标体系,建立了公路气候区划体系框架。
依据公路气候区划体系框架,明确提出了各具体分区区划的目的,选择了合适的区划指标,利用聚类分析、指标划分和图层叠置等方法,制定了路基气候影响分区、沥青路面气候影响分区、水泥混凝土路面气候影响分区、公路施工气候影响分区以及公路气候区划等方案。这些方案与相关气候评价指标分布图一同构成的公路气候区划方案体系,为全面了解我国气候条件对公路的影响提供依据,对公路工程活动具有指导意义。
Highway is a kind of man-made structure in natural environment,whoseconstructing and maintaining are impacted by various natural factors.Climate,as anactive natural factor,is widely concerned by highway researchers and participators forits prominent effect on highway.Planning,designing,constructing and maintaining ofhighway should adapt to the local climatic conditions,which is the foundation fornormal life and service level of highway.Thus it is necessary to study the mechanismof impacts of climate on highway and similarities and differences of climaticconditions about highway among regions.
Through review related achievements allover the world,this paper summarizedimpact of solar radiations,thermal conditions,moisture conditions and wind onhighway.It is showed that solar radiations,high-temperature process,low-temperatureprocess,freeze-thaw cycle,moisture condition,dry-wet cycle,process of hightemperature with moisture or precipitation,process of freeze-thaw cycle withmoisture or precipitation,extremely low temperature and wind are prominent climaticProcesses and conditions which have notable impacts on highway.Evaluatingindicators for each climatic processes or conditions are built and distributions of someindicators among China are studied through calculations.
Using methodology of natural regionalization,this paper studies climaticregionalization for highway,which provides a platform to study similarities anddifferences of climatic conditions about highway among China.Through analysis ofregionalization functions and highway demands,requirements in three levels ofhighway on climatic regionalization are found,which are basic requirements,integrated requirements and macro requirements.According these requirements,skeleton of China climatic regionalization for highway are found,which includesprinciple system,structure of regionalization,methodologies and indicator system.
According to structure of China climatic regionalization for highway,purposesof each included regionalization or zoning are defined and regionalizing indicators are selected.Climatic zoning for subgrade,asphalt pavement,PCC pavement andhighway construction and climatic regionalization for highway are finally madethrough methodologies of cluster analysis,division based on indicators and layersuperposing analysis.These zonings and regionalization and contour maps of relatedclimatic indicators,which compose China climatic regionalization for highway,provide references for studying impact of China's climatic conditions on highway andhave guiding significance for practices of highway engineering.
引文
[1]陈传康,伍光和,李昌文.综合自然地理学[M].北京:高等教育出版社,1993.
[2]黄秉维,郑度,赵名茶.现代自然地理[M].北京:科学出版社,1999.
[3]刘南威.自然地理学[M].北京:科学出版社,2000.
[4]李斌,关于划分道路气候区的几个问题[J].工程建设,1957年5期:19-23.
[5]李斌.全国道路气候分区修正方案说明[J].公路,1959年12月15期:33-36.
[6]杨政.混凝土道面温度状况的初步分析[R].空军后勤部工程设计局,1980.
[7]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论和参数[R],1982.
[8]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论、方法和参数研究[R],1986.
[9]宁波地区公路总段,宁海县公路段,同济大学道路与交通工程研究所.沥青混凝土路面温度、回弹模量测试研究[R].1982.
[10]林绣贤.再论沥青路面弯沉值的温度修正系数[R].同济大学道路与交通工程研究所,1984.
[11]援苏丹公路技术组,同济大学道路与交通工程研究所.沥青路面结构层的温度状况及其对强度的影响[R].1984.
[12]同济大学道路与交通工程研究所.沥青路面温度与弯沉关系的研究报告[R].1984
[13]交通部公路规划设计院.公路自然区划标准(JTJ 003-86)[S].北京:人民交通出版社,1986.
[14]交通部第二公路勘察设计院.公路设计手册—路基(第二版)[M].北京:人民交通出版社,2001.
[15]交通部公路规划设计院.公路沥青路面设计规范(JTJ 014-97)[S].北京:人民交通出版社,1997.
[16]张喜发,陈继,张冬青.融沉系数在季冻区高速公路路基冻害研究中的应用[J].冰川冻土,2002,24(5):634-638.
[17]毛雪松,胡长顺,侯仲杰.冻土路基温度场室内足尺模型试验[J].长安大学学报(自然科学版),2004,24(1):30-33.
[18]沈金安,道路沥青及沥青混合料的气候分区及关键性技术指标[J].中国公路学报,1997,10(1):1-9.
[19]孙长新,广东省公路沥青路面气候影响分区[J].西安公路交通大学学报,2000,20 (1):16-19.
[20]Fred Hugo.Rutting performance of dustrol rehabilitation under TxMLS trafficking with increased tire pressure[R].FHWA/TX-00/0-1814-4,Center for Transportation Research,The University of Texas at Austin,2000.
[21]Lubinda F.Walubita,Fred Hugo,Amy Epps.Performance of rehabilitated lightweight aggregate asphalt concrete pavement under wet and heated model mobile load simulator trafficking:a comparative study with the TxMLS[R].FHWA/TX-00/0-1814-3,Center for Transportation Research,The University of Texas at Austin,2000.
[22]Andr(?) de Fortier Smit,Fred Hugo,Amy Epps.Report on the first Jacksboro MMLS tests[R].FHWA/TX-00/0-1814-2,Center for Transportation Research,The University of Texas at Austin,1999.
[23]Fred Hugo,Dar-Hao Chen,Andr(?) de Fortier Smit,et al..Report on a comparison of the effectiveness of two pavement rehabilitation strategies on US 281 near Jadksboro[R].FHWA/TX-0-1814-1,Center for Transportation Research,The University of Texas at Austin,2001.
[24]W.Hansen,E.A.Jensen,and P.Mohr.The effects of higher strength and associated concrete properties on pavement performance[R].FHWA-RD-00-161,University of Michigan,2001.
[25] Andrew G. Heydinger. Monitoring seasonal instrumentation and modeling climatic effects on pavements at the Ohio/SHRP test road[R]. FHWA/OH-2003/018, Department of Civil Engineering, The University of Toledo, 2003.
[26] Dulce Rufino, Jeffery Roesler, Ernest Barenberg. Effect of pavement temperature on concrete pavement joint responses[C]. 2004 FAA world airport technology transfer conference, 2004, Atlantic City, New Jersey, USA.
[27] Sabine Werkmeister, Ralf Numrich, Andrew R Dawson, et al,. Design of granular pavement layers consideriing climatic conditions[C]. TRB 2003 Annual Meeting, 2003, TRB, National Research Council, Washington, D.C.
[28] Seong-Min Kim, Patricia Kim Nelson. Experimental and numerical analyses of PCC overlays on PCC slabs-on-grade subjected to climatic loading[J]. International Journal of Solids and Structures, 2004, 41 (3-4) 785-800.
[29] Sameh Zaghloul, Nick Vitillo, Nenad Gucunski, et al.. Seasonal variation in material properties[C]. TRB 2003 Annual Meeting, 2003, TRB, National Research Council, Washington, D.C.
[30] ARA, Inc., ERES Consultants Division, Guide for Mechanistic-Empirical Design of New and Rehabilitated Pavement Structures (Final Report)[R]. NCHRP 1-37A, TRB, National Research Council, Washington D.C, 2004.
[31] Lytton, R. L., D. E. Pufahl, C. H. Michalak, et al.. An integrated model of the climati effects on pavement[R]. FHEA-RD-0-003, Texas Transportation Institute, Texas A & M University, 1990.
[32] Dempsey, B. J., W. A. Herlach, A. J. Patel. The climatic-material-structural pavement analysis program[R]. FHEA-RD-84-115, Federal Highway Administration, Washington D.C, 1985.
[33] Guymon, G. L., R. L. Berg, T. C. Johnson. Mathematical model of frost heave and thaw settlement in pavement[R]. Cold Regions Research & Engineering Laboratory, U.S. Army Corps of Engineers, 1986
[34] Gang Zuo. Impacts of environmental factors on flexible pavements[D]. Knoxville: The University of Tennessee, 2003.
[35] ERES Consultants, A Division of Applied Research Associates, Inc. Improved concrete overlay design parameters for airfield pavements[R]. DOT/FAA-01-G-002-2, Federal Aviation Administration, Washington D.C, 2001.
[36] Chetana Rao, Olga Selezneva, Michael I. Darter. Calibration of a mechanistic empirical performance model for CRCP pnuchouts[C]. TRB 2003 Annual Meeting, 2003, TRB, National Research Council, Washington, D.C.
[37] John Harvey, Aimee Chong, Jeffrey Roesler. Climate region for mechanistic-empirical pavement design in California and expected effects on performance[R]. Pavement Resaerch Center, University of California at Berkeley, 2000.
[38] Jill M. Ovik, John A. Siekmeier, David A. Van Deusen. Improve spring load restrictions guidlines using mechanistic analysis[R]. 2000-18, Office of Materials and Road Research, Minnesota Department of Transportation, 2000.
[39] David Levinson, Mihai Marasteanu, Vaughan Voller et al.. Cost/benefit study of: spring load restrictions[R]. MN/RC - 2005-15, Department of Civil Engineering, University of Minnesota, 2005.
[40]Dave Van Deusen,Craig Schrader,Ben Worel.Recent research on springtime thaw weakening and load restrictions in the state of Minnesota[C].TRB 1998 Annual Meeting,1998,TRB,National Research Council,Washington,D.C.
[41]杨吾扬.中国陆路交通自然条件评价和区划概要[J].地理学报,1964,30(4):301-319.
[42]耿大定,陈传康,杨吾扬等.论中国公路自然区划[J].地理学报,1978,33 (1) 49-62.
[43]交通部公路科学研究所.公路沥青路面施工技术规范(JTG F40-2004)[S].北京:人民交通出版社,2004.
[44]甘肃交通规划勘察设计院有限责任公司,长安大学等.甘肃公路自然区划及环境参数研究[R].2005.
[45]Vincent Janoo,Alan Greatorex.Performance of Montana highway pavements during spring thaw[R].FHWA/MT-02-002-8155,Cold Regions Research & Engineering Laboratory,U.S.Army Corps of Engineers,2002.
[46]中国科学院地理研究所.中国综合自然区划(初稿)[M].北京:科学出版社,1959.
[47]西安公路学院公路系道路教研室.试论中国公路自然区划[J].汽车与公路,1975年,1975 (2):72-109.
[48]李贵顺.山西省三级公路自然区划[J].山西交通科技,1996 (5):13-18.
[49]徐强,陈忠达等.关于河南省公路三级自然区划的探讨[J].河南交通科技,2000,20(6):31-34.
[50]M.W.Witczak.Environmental factors in long term performance[C].SHRP-LTPP/UWP-91-514,Long-term pavement performance:Proceedings of the SHRP Midcourse Assessment Meeting,Strategic Highway Research Program,National Research Council,Washington,D.C.,1991
[51]Thomas W.Kennedy,Ronald J.Cominsky,EdwardT.Harrigan.The SHRP asphalt research program:1990 strategic planning document[R].SHRP-A/UWP-90-007,Strategic Highway Research Program,National Research Council,Washington,D.C.,1990
[52]C.A.Bell,Alan J.Wieder,Marco J.Fellin.Laboratory aging of aphalt-aggregate mixtures:field validation[R].SHRP-A-390,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[53]William O.Hadley.SHRP-LTPP general pavement studies:five-year report[R].SHRP-P-387,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[54]J.Brent Rauhut,Michael I.Darter.Early analyses of LTPP general pavement studies data executive summary[R].SHRP-P-392,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[55]Amy L.Simpson,J.Brent Rauhut,Dr.Peter R.Jordahl,et al..Sensitivity analyses for selected pavement distresses[R].SHRP-P-393,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[56]Jerome F.Daleiden,J.Brent Rauhut,Brian Killingsworth.Evaluation of the AASHTO design equations and recommended improvements[R].SHR-P-394,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[57]Amir N.Hanna,Shiraz D.Tayabji,John S.Miller.SHRP-LTPP Specific Pavement Studies:Five-Year Report[R].SHRP-P-395,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[58]William O.Hadley.SHRP-LTPP overview:five-year report[R].SHRP-P-416,Strategic Highway Research Program, National Research Council, Washington, D.C., 1994
[59] J. Brent Rauhut, Amy L. Simpson, Jerome F. Daleiden, et al.. Early analyses of Long-Term Pavement Performance general pavement studies data: lessons learned and recommendations for future anaIyses[R]. SHRP-P-680, Strategic Highway Research Program, National Research Council, Washington, D.C., 1994
[60] Brian M. Killingsworth, Amy L. Simpson, J. Brent Rauhut, et al.. Early analyses of LTPP general pavement studies data: data processing and evaluation[R]. SHRP-P-684, Strategic Highway Research Program, National Research Council, Washington, D.C., 1994
[61] William O. Hadley, Hadley and Associates. SHRP-LTPP data analysis studies: five-year report[R]. SHRP-P-688, Strategic Highway Research Program, National Research Council, Washington, D.C., 1994
[62] Cesar Ivan Medina Chavez, B. Frank McCullough, Terry Dossey. Assessment of data collection and supplementary tasks conducted for the Texas rigid pavement data.base[R]. FHWA/TX-04/1778-4, Center for Transportation Research, The University of Texas at Austin, 2003
[63] Cesar Ivan Medina Chavez, Terry Dossey, B. Frank McCullough. Analyses performed using the rigid pavement database in Texas[R]. FHWA/TX-05/0-1778-5, Center for Transportation Research, The University of Texas at Austin, 2004
[1]刘南威.自然地理学[M].北京:科学出版社,2000.
[2]高绍凤,陈万隆,朱超群等.应用气候学[M].北京:气象出版社,2001.
[3]高国栋,陆渝蓉.中国地表面辐射平衡与热量平衡[M].北京:科学出版社,1982.
[4]中国气象局.地面气象观测规范[S].北京:气象出版社,2003.
[5]Chris A.Bell.Summary report on aging of asphalt-aggregate systems[R].SHRP-A-305,National Research Council,Washington D.C.,1989.
[6]Raymond E.Robertson.Chemical properties of asphalts and their relationship to pavement performance[R].SHRP-A/UWP-91-510,National Research Council,Washington D.C.,1991.
[7]G.D.Airey.State of the art report on aging test methods for bituminous pavement materials[J].The International Journal of Pavement Engineering,2003,4(3):165-176.
[8]沈金安.沥青及沥青混合料路用性能[M].北京:人民交通出版社,2001.
[9]周勇.高寒地区道路沥青低温性能评价指标及光老化特性研究[D].西安:长安大学,2005.
[10]杨政.混凝土道面温度状况的初步分析[R].空军后勤部工程设计局,1980.
[11]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论和参数[R].1982.
[12]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论、方法和参数研究[R].1986.
[13]姚祖康.水泥混凝土路面设计理论和方法[M].北京:人民交通出版社,2003.
[14]中交公路规划设计院.公路水泥混凝土路面设计规范(JTG D40-2002)[S].北京:人民交通出版社,2003.
[15]U.S.Army Corps of Engineers.Pavement criteria for seasonal frost conditions[R].EM 1110-3-138,Washington,D.C.,1984.
[16]Maureen A.Kestler,Thomas Knight,Audrey S.Krat.Thaw weakening and load restriction practices on low volume roads[R].ERDC/CRREL TR-00-6,Cold Regions Research & Engineering Laboratory,U.S.Army Corps of Engineers,2000.
[17]Vincent Janoo,Alan Greatorex.Performance of Montana highway pavements during spring thaw[R].FHWA/MT-02-006/8155,Montana Department of Transportation,2002.
[18]Ted S.Vinson,Vincent C.Janoo,Ralph C.G.Haas.Summary Report on Low Temperature and Thermal Fatigue Cracking[R].SHRP-A-306,National Research Council,Washington,D.C.,1989.
[19]C.A.Bell,Y.AbWahab,M.E.Cristi,et al..Selection of laboratory aging procedures for asphalt-aggregate mixtures[R].SHRP-A-383,National Research Council,Washington,D.C.,1989.
[20]Shin-Che Huang,Mang Tia,Byron E.Ruth.Laboratory aging methods for simulation of field aging of asphalts[J].Journal of Materials in Civil Engineering,1996,8(3):147-152.
[21]交通部公路科学研究所.公路工程沥青及沥青混合料试验规程(JTJ 052-2000)[S].北京:人民交通出版社,2000.
[22]Todd V.Scholz,Ronald L.Terrel,Abdulla AI-Joaib,et al..Water Sensitivity:Binder Validation[R].SHRP-A-402.National Research Council,Washington,D.C.,1994.
[23]Ronald L.Terrel,Saleh AI-Swailmi.Water Sensitivity of Asphalt-Aggregate Mixes:Test Selection[R].SHRP-A-403,National Research Council,Washington,D.C.,1994.
[24]Mansour Solaimanian,John Harvey,Maghsoud Tahnoressi,et al..Test Methods to Predict Moisture Sensitivity of Hot-Mix Asphalt Pavements[C].Moisture Sensitive of Asphalt Pavements:A National Seminar,San Diego,California,2003:77-110.
[25]交通部第一公路工程总公司.公路路基施工技术规范(JTJ 033-95)[S].北京:人民交通出版社,1996.
[26]交通部公路科学研究所.公路路面基层施工技术规范(JTJ 034-2000)[S].北京:人民交通出版社,2000.
[27]交通部公路科学研究所.公路水泥混凝土路面施工技术规范(JTG F30-2003)[S].北京:人民交通出版社,2003.
[28]交通部公路科学研究所.公路沥青路面施工技术规范(JTG F40-2004)[S].北京:人民交通出版社,2004.
[29]交通部第二公路勘察设计院.公路设计手册—路基(第二版)[M].北京:人民交通出版社,2001.
[30]李家春.公路边坡降雨灾害评价方法与指标研究[D].西安:长安大学,2005
[31]沙庆林.高等级公路半刚性基层沥青路面[M].北京:人民交通出版社,1998.
[32]沙爱民.半刚性路面材料结构与性能[M].北京:人民交通出版社,1998.
[33]梁军林.水泥混凝土路面断裂破坏机理及应用研究[D].西安:长安大学,2004.
[34]胡力群,沙爱民.沥青路面水泥稳定类基层材料抗冲刷性能试验及机理研究[J].中国公路学报,2003,16(1):15-18.
[35]黄立葵,何慧斌,张迎春等.水泥混凝土路面的水冲刷破坏[J].中南公路工程,2003,28(3):18-22.
[36]孙立军.沥青路面结构行为理论[M].上海:同济大学出版社,2003.
[37]David R.Johnson,Reed B.Freeman.Rehabilitation Techniques for Stripped Asphalt Pavements[R].FHWA/MT-002-003/8123,Montana Department of Transportation,Helena,Montana,2002.
[38]Hussain Bahia,Seemab Ahmad.Evaluation and Correlation of Lab and Field Tensile Strength Ratio (TSR) Procedures and Values in Assessing the Stripping Potential of Asphalt Mixes[R].WI/SPR-10-99.Wisconsin Deportment of Transportation,Madison,Wisconsin,1999.
[39]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,2001.
[40]吕伟民.沥青混合料设计原理与方法[M].上海:同济大学出版社,2001.
[41]李海军,黄晓明,王宏畅.道路沥青在使用过程中的水老化[J].石油学报(石油加工)
[42]Jansen,D.J.Moisture in Portland cement concrete[R].TRR,1987,1121:40-44.
[43]Jin-Hoon Jeong,Characterization of slab behavior and related material properties due to temperature and moisture effects[D].Texas A&M University,2003.
[44]ARA,Inc.,ERES Consultants Division,Guide for Mechanistic-Empirical Design of New and Rehabilitated Pavement Structures (Final Report)[R].NCHRP 1-37A,TRB,National Research Council,Washington D.C.,2004.
[1]张仁铎.空间变异理论及应用[M].北京:科学出版社,2005.
[2]刘南威.自然地理学[M].北京:科学出版社,2000.
[3]交通部公路规划设计院公路自然区划标准[S].北京:人民交通出版社,1986.
[4]孙鸿烈、张荣祖中国生态环境建设地带性原理与实践[M].北京:科学出版社,2004.
[1]陈传康,伍光和,李昌文.综合自然地理学[M].北京:高等教育出版社,1993.
[2]黄秉维,郑度,赵名茶.现代自然地理[M].北京:科学出版社,1999.
[3]刘南威.自然地理学[M].北京:科学出版社,2000.
[4]刘惠璇.应用多元统计分析[M].北京:北京大学出版社,2005.
[1]Jill M.Ovik,John A.Siekmeier,DavidA.Van Deusen.Improve spring load restrictions guidlines using mechanistic analysis[R].2000-18,Office of Materials and Road Research,Minnesota Department of Transportation,2000.
[2]David Levinson,Mihai Marasteanu,Vaughan Voller et al..Cost/benefit study of:spring load restrictions[R].MN/RC-2005-15,Department of Civil Engineering,University of Minnesota,2005.
[3]交通部公路规划设计院.公路自然区划标准(JTJ 003-86)[S].北京:人民交通出版社,1986.
[4]孙鸿烈,张荣祖.中国生态环境建设地带性原理与实践[M].北京:科学出版社,2004.
[1]交通部公路规划设计院.公路自然区划标准(JTJ 003-86)[S].北京:人民交通出版社,1986.
[2]孙鸿烈,张荣祖.中国生态环境建设地带性原理与实践[M].北京:科学出版社,2004.
[3]交通部公路科学研究所.公路沥青路面施工技术规范(JTG F40-2004)[S].北京:人民交通出版社,2004.
[4]沈金安,道路沥青及沥青混合料的气候分区及关键性技术指标[J].中国公路学报,1997,10(1):1-9.
[1]中交公路规划设计院.公路水泥混凝土路面设计规范(JTG D40-2002)[S].北京:人民交通出版社,2003.
[2]杨政.混凝土道面温度状况的初步分析[R].空军后勤部工程设计局,1980.
[3]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论和参数[R],1982.
[4]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论、方法和参数研究[R],1986.
[5]姚祖康.水泥混凝土路面设计理论和方法[M].北京:人民交通出版社,2003.
[1]交通部公路规划设计院.公路自然区划标准(JTJ 003-86)[S].北京:人民交通出版社,1986.
[2]孙鸿烈,张荣祖.中国生态环境建设地带性原理与实践[M].北京:科学出版社,2004.
[3]李斌.全国道路气候分区修正方案说明[J].公路,1959年12月15期:33-36.
[4]西安公路学院公路系道路教研室.试论中国公路自然区划[J].汽车与公路,1975年,1975 (2):72-109
[5]耿大定,陈传康,杨吾扬等.论中国公路自然区划[J].地理学报,1978,33(1)49-62.
[1]Penman,H.L.Natural evaporation from open water,bare,grass[C].Proc.Rol.Soc.London.A193,1948,London.
[2]Wayne S.Meyer.Standard reference evaporation calculation for inland,south eastern Australia[R].35/98,CSIRO Land and Water,Adelaide Laboratory,1999.
[3]Environmental and Water Resources Institute of the ASCE.The ASCE standard reference evapotranspiration equation[S].2001.
[4]Richard G.Allen,Luis S.Pereira,Dirk Raes et al..FAO irrigation and drainage paper No.56,crop evapotranspiration:guidelines for computing crop water requirements[R].FAO,Water Resources,Development and Management Service,Rome,Italy,2000.
[5]孟猛,倪健,张治国.地理生态学的干燥度指数及其应用评述[J].植物生态学报,2004,28(6):853-861.
[6]中国气象局.地面气象观测规范[S].北京:气象出版社,2003.
[7]高国栋,陆渝蓉.中国地表面辐射平衡与热量平衡[M].北京:科学出版社,1982.
[2]黄秉维,郑度,赵名茶.现代自然地理[M].北京:科学出版社,1999.
[3]刘南威.自然地理学[M].北京:科学出版社,2000.
[4]李斌,关于划分道路气候区的几个问题[J].工程建设,1957年5期:19-23.
[5]李斌.全国道路气候分区修正方案说明[J].公路,1959年12月15期:33-36.
[6]杨政.混凝土道面温度状况的初步分析[R].空军后勤部工程设计局,1980.
[7]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论和参数[R],1982.
[8]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论、方法和参数研究[R],1986.
[9]宁波地区公路总段,宁海县公路段,同济大学道路与交通工程研究所.沥青混凝土路面温度、回弹模量测试研究[R].1982.
[10]林绣贤.再论沥青路面弯沉值的温度修正系数[R].同济大学道路与交通工程研究所,1984.
[11]援苏丹公路技术组,同济大学道路与交通工程研究所.沥青路面结构层的温度状况及其对强度的影响[R].1984.
[12]同济大学道路与交通工程研究所.沥青路面温度与弯沉关系的研究报告[R].1984
[13]交通部公路规划设计院.公路自然区划标准(JTJ 003-86)[S].北京:人民交通出版社,1986.
[14]交通部第二公路勘察设计院.公路设计手册—路基(第二版)[M].北京:人民交通出版社,2001.
[15]交通部公路规划设计院.公路沥青路面设计规范(JTJ 014-97)[S].北京:人民交通出版社,1997.
[16]张喜发,陈继,张冬青.融沉系数在季冻区高速公路路基冻害研究中的应用[J].冰川冻土,2002,24(5):634-638.
[17]毛雪松,胡长顺,侯仲杰.冻土路基温度场室内足尺模型试验[J].长安大学学报(自然科学版),2004,24(1):30-33.
[18]沈金安,道路沥青及沥青混合料的气候分区及关键性技术指标[J].中国公路学报,1997,10(1):1-9.
[19]孙长新,广东省公路沥青路面气候影响分区[J].西安公路交通大学学报,2000,20 (1):16-19.
[20]Fred Hugo.Rutting performance of dustrol rehabilitation under TxMLS trafficking with increased tire pressure[R].FHWA/TX-00/0-1814-4,Center for Transportation Research,The University of Texas at Austin,2000.
[21]Lubinda F.Walubita,Fred Hugo,Amy Epps.Performance of rehabilitated lightweight aggregate asphalt concrete pavement under wet and heated model mobile load simulator trafficking:a comparative study with the TxMLS[R].FHWA/TX-00/0-1814-3,Center for Transportation Research,The University of Texas at Austin,2000.
[22]Andr(?) de Fortier Smit,Fred Hugo,Amy Epps.Report on the first Jacksboro MMLS tests[R].FHWA/TX-00/0-1814-2,Center for Transportation Research,The University of Texas at Austin,1999.
[23]Fred Hugo,Dar-Hao Chen,Andr(?) de Fortier Smit,et al..Report on a comparison of the effectiveness of two pavement rehabilitation strategies on US 281 near Jadksboro[R].FHWA/TX-0-1814-1,Center for Transportation Research,The University of Texas at Austin,2001.
[24]W.Hansen,E.A.Jensen,and P.Mohr.The effects of higher strength and associated concrete properties on pavement performance[R].FHWA-RD-00-161,University of Michigan,2001.
[25] Andrew G. Heydinger. Monitoring seasonal instrumentation and modeling climatic effects on pavements at the Ohio/SHRP test road[R]. FHWA/OH-2003/018, Department of Civil Engineering, The University of Toledo, 2003.
[26] Dulce Rufino, Jeffery Roesler, Ernest Barenberg. Effect of pavement temperature on concrete pavement joint responses[C]. 2004 FAA world airport technology transfer conference, 2004, Atlantic City, New Jersey, USA.
[27] Sabine Werkmeister, Ralf Numrich, Andrew R Dawson, et al,. Design of granular pavement layers consideriing climatic conditions[C]. TRB 2003 Annual Meeting, 2003, TRB, National Research Council, Washington, D.C.
[28] Seong-Min Kim, Patricia Kim Nelson. Experimental and numerical analyses of PCC overlays on PCC slabs-on-grade subjected to climatic loading[J]. International Journal of Solids and Structures, 2004, 41 (3-4) 785-800.
[29] Sameh Zaghloul, Nick Vitillo, Nenad Gucunski, et al.. Seasonal variation in material properties[C]. TRB 2003 Annual Meeting, 2003, TRB, National Research Council, Washington, D.C.
[30] ARA, Inc., ERES Consultants Division, Guide for Mechanistic-Empirical Design of New and Rehabilitated Pavement Structures (Final Report)[R]. NCHRP 1-37A, TRB, National Research Council, Washington D.C, 2004.
[31] Lytton, R. L., D. E. Pufahl, C. H. Michalak, et al.. An integrated model of the climati effects on pavement[R]. FHEA-RD-0-003, Texas Transportation Institute, Texas A & M University, 1990.
[32] Dempsey, B. J., W. A. Herlach, A. J. Patel. The climatic-material-structural pavement analysis program[R]. FHEA-RD-84-115, Federal Highway Administration, Washington D.C, 1985.
[33] Guymon, G. L., R. L. Berg, T. C. Johnson. Mathematical model of frost heave and thaw settlement in pavement[R]. Cold Regions Research & Engineering Laboratory, U.S. Army Corps of Engineers, 1986
[34] Gang Zuo. Impacts of environmental factors on flexible pavements[D]. Knoxville: The University of Tennessee, 2003.
[35] ERES Consultants, A Division of Applied Research Associates, Inc. Improved concrete overlay design parameters for airfield pavements[R]. DOT/FAA-01-G-002-2, Federal Aviation Administration, Washington D.C, 2001.
[36] Chetana Rao, Olga Selezneva, Michael I. Darter. Calibration of a mechanistic empirical performance model for CRCP pnuchouts[C]. TRB 2003 Annual Meeting, 2003, TRB, National Research Council, Washington, D.C.
[37] John Harvey, Aimee Chong, Jeffrey Roesler. Climate region for mechanistic-empirical pavement design in California and expected effects on performance[R]. Pavement Resaerch Center, University of California at Berkeley, 2000.
[38] Jill M. Ovik, John A. Siekmeier, David A. Van Deusen. Improve spring load restrictions guidlines using mechanistic analysis[R]. 2000-18, Office of Materials and Road Research, Minnesota Department of Transportation, 2000.
[39] David Levinson, Mihai Marasteanu, Vaughan Voller et al.. Cost/benefit study of: spring load restrictions[R]. MN/RC - 2005-15, Department of Civil Engineering, University of Minnesota, 2005.
[40]Dave Van Deusen,Craig Schrader,Ben Worel.Recent research on springtime thaw weakening and load restrictions in the state of Minnesota[C].TRB 1998 Annual Meeting,1998,TRB,National Research Council,Washington,D.C.
[41]杨吾扬.中国陆路交通自然条件评价和区划概要[J].地理学报,1964,30(4):301-319.
[42]耿大定,陈传康,杨吾扬等.论中国公路自然区划[J].地理学报,1978,33 (1) 49-62.
[43]交通部公路科学研究所.公路沥青路面施工技术规范(JTG F40-2004)[S].北京:人民交通出版社,2004.
[44]甘肃交通规划勘察设计院有限责任公司,长安大学等.甘肃公路自然区划及环境参数研究[R].2005.
[45]Vincent Janoo,Alan Greatorex.Performance of Montana highway pavements during spring thaw[R].FHWA/MT-02-002-8155,Cold Regions Research & Engineering Laboratory,U.S.Army Corps of Engineers,2002.
[46]中国科学院地理研究所.中国综合自然区划(初稿)[M].北京:科学出版社,1959.
[47]西安公路学院公路系道路教研室.试论中国公路自然区划[J].汽车与公路,1975年,1975 (2):72-109.
[48]李贵顺.山西省三级公路自然区划[J].山西交通科技,1996 (5):13-18.
[49]徐强,陈忠达等.关于河南省公路三级自然区划的探讨[J].河南交通科技,2000,20(6):31-34.
[50]M.W.Witczak.Environmental factors in long term performance[C].SHRP-LTPP/UWP-91-514,Long-term pavement performance:Proceedings of the SHRP Midcourse Assessment Meeting,Strategic Highway Research Program,National Research Council,Washington,D.C.,1991
[51]Thomas W.Kennedy,Ronald J.Cominsky,EdwardT.Harrigan.The SHRP asphalt research program:1990 strategic planning document[R].SHRP-A/UWP-90-007,Strategic Highway Research Program,National Research Council,Washington,D.C.,1990
[52]C.A.Bell,Alan J.Wieder,Marco J.Fellin.Laboratory aging of aphalt-aggregate mixtures:field validation[R].SHRP-A-390,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[53]William O.Hadley.SHRP-LTPP general pavement studies:five-year report[R].SHRP-P-387,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[54]J.Brent Rauhut,Michael I.Darter.Early analyses of LTPP general pavement studies data executive summary[R].SHRP-P-392,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[55]Amy L.Simpson,J.Brent Rauhut,Dr.Peter R.Jordahl,et al..Sensitivity analyses for selected pavement distresses[R].SHRP-P-393,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[56]Jerome F.Daleiden,J.Brent Rauhut,Brian Killingsworth.Evaluation of the AASHTO design equations and recommended improvements[R].SHR-P-394,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[57]Amir N.Hanna,Shiraz D.Tayabji,John S.Miller.SHRP-LTPP Specific Pavement Studies:Five-Year Report[R].SHRP-P-395,Strategic Highway Research Program,National Research Council,Washington,D.C.,1994
[58]William O.Hadley.SHRP-LTPP overview:five-year report[R].SHRP-P-416,Strategic Highway Research Program, National Research Council, Washington, D.C., 1994
[59] J. Brent Rauhut, Amy L. Simpson, Jerome F. Daleiden, et al.. Early analyses of Long-Term Pavement Performance general pavement studies data: lessons learned and recommendations for future anaIyses[R]. SHRP-P-680, Strategic Highway Research Program, National Research Council, Washington, D.C., 1994
[60] Brian M. Killingsworth, Amy L. Simpson, J. Brent Rauhut, et al.. Early analyses of LTPP general pavement studies data: data processing and evaluation[R]. SHRP-P-684, Strategic Highway Research Program, National Research Council, Washington, D.C., 1994
[61] William O. Hadley, Hadley and Associates. SHRP-LTPP data analysis studies: five-year report[R]. SHRP-P-688, Strategic Highway Research Program, National Research Council, Washington, D.C., 1994
[62] Cesar Ivan Medina Chavez, B. Frank McCullough, Terry Dossey. Assessment of data collection and supplementary tasks conducted for the Texas rigid pavement data.base[R]. FHWA/TX-04/1778-4, Center for Transportation Research, The University of Texas at Austin, 2003
[63] Cesar Ivan Medina Chavez, Terry Dossey, B. Frank McCullough. Analyses performed using the rigid pavement database in Texas[R]. FHWA/TX-05/0-1778-5, Center for Transportation Research, The University of Texas at Austin, 2004
[1]刘南威.自然地理学[M].北京:科学出版社,2000.
[2]高绍凤,陈万隆,朱超群等.应用气候学[M].北京:气象出版社,2001.
[3]高国栋,陆渝蓉.中国地表面辐射平衡与热量平衡[M].北京:科学出版社,1982.
[4]中国气象局.地面气象观测规范[S].北京:气象出版社,2003.
[5]Chris A.Bell.Summary report on aging of asphalt-aggregate systems[R].SHRP-A-305,National Research Council,Washington D.C.,1989.
[6]Raymond E.Robertson.Chemical properties of asphalts and their relationship to pavement performance[R].SHRP-A/UWP-91-510,National Research Council,Washington D.C.,1991.
[7]G.D.Airey.State of the art report on aging test methods for bituminous pavement materials[J].The International Journal of Pavement Engineering,2003,4(3):165-176.
[8]沈金安.沥青及沥青混合料路用性能[M].北京:人民交通出版社,2001.
[9]周勇.高寒地区道路沥青低温性能评价指标及光老化特性研究[D].西安:长安大学,2005.
[10]杨政.混凝土道面温度状况的初步分析[R].空军后勤部工程设计局,1980.
[11]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论和参数[R].1982.
[12]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论、方法和参数研究[R].1986.
[13]姚祖康.水泥混凝土路面设计理论和方法[M].北京:人民交通出版社,2003.
[14]中交公路规划设计院.公路水泥混凝土路面设计规范(JTG D40-2002)[S].北京:人民交通出版社,2003.
[15]U.S.Army Corps of Engineers.Pavement criteria for seasonal frost conditions[R].EM 1110-3-138,Washington,D.C.,1984.
[16]Maureen A.Kestler,Thomas Knight,Audrey S.Krat.Thaw weakening and load restriction practices on low volume roads[R].ERDC/CRREL TR-00-6,Cold Regions Research & Engineering Laboratory,U.S.Army Corps of Engineers,2000.
[17]Vincent Janoo,Alan Greatorex.Performance of Montana highway pavements during spring thaw[R].FHWA/MT-02-006/8155,Montana Department of Transportation,2002.
[18]Ted S.Vinson,Vincent C.Janoo,Ralph C.G.Haas.Summary Report on Low Temperature and Thermal Fatigue Cracking[R].SHRP-A-306,National Research Council,Washington,D.C.,1989.
[19]C.A.Bell,Y.AbWahab,M.E.Cristi,et al..Selection of laboratory aging procedures for asphalt-aggregate mixtures[R].SHRP-A-383,National Research Council,Washington,D.C.,1989.
[20]Shin-Che Huang,Mang Tia,Byron E.Ruth.Laboratory aging methods for simulation of field aging of asphalts[J].Journal of Materials in Civil Engineering,1996,8(3):147-152.
[21]交通部公路科学研究所.公路工程沥青及沥青混合料试验规程(JTJ 052-2000)[S].北京:人民交通出版社,2000.
[22]Todd V.Scholz,Ronald L.Terrel,Abdulla AI-Joaib,et al..Water Sensitivity:Binder Validation[R].SHRP-A-402.National Research Council,Washington,D.C.,1994.
[23]Ronald L.Terrel,Saleh AI-Swailmi.Water Sensitivity of Asphalt-Aggregate Mixes:Test Selection[R].SHRP-A-403,National Research Council,Washington,D.C.,1994.
[24]Mansour Solaimanian,John Harvey,Maghsoud Tahnoressi,et al..Test Methods to Predict Moisture Sensitivity of Hot-Mix Asphalt Pavements[C].Moisture Sensitive of Asphalt Pavements:A National Seminar,San Diego,California,2003:77-110.
[25]交通部第一公路工程总公司.公路路基施工技术规范(JTJ 033-95)[S].北京:人民交通出版社,1996.
[26]交通部公路科学研究所.公路路面基层施工技术规范(JTJ 034-2000)[S].北京:人民交通出版社,2000.
[27]交通部公路科学研究所.公路水泥混凝土路面施工技术规范(JTG F30-2003)[S].北京:人民交通出版社,2003.
[28]交通部公路科学研究所.公路沥青路面施工技术规范(JTG F40-2004)[S].北京:人民交通出版社,2004.
[29]交通部第二公路勘察设计院.公路设计手册—路基(第二版)[M].北京:人民交通出版社,2001.
[30]李家春.公路边坡降雨灾害评价方法与指标研究[D].西安:长安大学,2005
[31]沙庆林.高等级公路半刚性基层沥青路面[M].北京:人民交通出版社,1998.
[32]沙爱民.半刚性路面材料结构与性能[M].北京:人民交通出版社,1998.
[33]梁军林.水泥混凝土路面断裂破坏机理及应用研究[D].西安:长安大学,2004.
[34]胡力群,沙爱民.沥青路面水泥稳定类基层材料抗冲刷性能试验及机理研究[J].中国公路学报,2003,16(1):15-18.
[35]黄立葵,何慧斌,张迎春等.水泥混凝土路面的水冲刷破坏[J].中南公路工程,2003,28(3):18-22.
[36]孙立军.沥青路面结构行为理论[M].上海:同济大学出版社,2003.
[37]David R.Johnson,Reed B.Freeman.Rehabilitation Techniques for Stripped Asphalt Pavements[R].FHWA/MT-002-003/8123,Montana Department of Transportation,Helena,Montana,2002.
[38]Hussain Bahia,Seemab Ahmad.Evaluation and Correlation of Lab and Field Tensile Strength Ratio (TSR) Procedures and Values in Assessing the Stripping Potential of Asphalt Mixes[R].WI/SPR-10-99.Wisconsin Deportment of Transportation,Madison,Wisconsin,1999.
[39]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,2001.
[40]吕伟民.沥青混合料设计原理与方法[M].上海:同济大学出版社,2001.
[41]李海军,黄晓明,王宏畅.道路沥青在使用过程中的水老化[J].石油学报(石油加工)
[42]Jansen,D.J.Moisture in Portland cement concrete[R].TRR,1987,1121:40-44.
[43]Jin-Hoon Jeong,Characterization of slab behavior and related material properties due to temperature and moisture effects[D].Texas A&M University,2003.
[44]ARA,Inc.,ERES Consultants Division,Guide for Mechanistic-Empirical Design of New and Rehabilitated Pavement Structures (Final Report)[R].NCHRP 1-37A,TRB,National Research Council,Washington D.C.,2004.
[1]张仁铎.空间变异理论及应用[M].北京:科学出版社,2005.
[2]刘南威.自然地理学[M].北京:科学出版社,2000.
[3]交通部公路规划设计院公路自然区划标准[S].北京:人民交通出版社,1986.
[4]孙鸿烈、张荣祖中国生态环境建设地带性原理与实践[M].北京:科学出版社,2004.
[1]陈传康,伍光和,李昌文.综合自然地理学[M].北京:高等教育出版社,1993.
[2]黄秉维,郑度,赵名茶.现代自然地理[M].北京:科学出版社,1999.
[3]刘南威.自然地理学[M].北京:科学出版社,2000.
[4]刘惠璇.应用多元统计分析[M].北京:北京大学出版社,2005.
[1]Jill M.Ovik,John A.Siekmeier,DavidA.Van Deusen.Improve spring load restrictions guidlines using mechanistic analysis[R].2000-18,Office of Materials and Road Research,Minnesota Department of Transportation,2000.
[2]David Levinson,Mihai Marasteanu,Vaughan Voller et al..Cost/benefit study of:spring load restrictions[R].MN/RC-2005-15,Department of Civil Engineering,University of Minnesota,2005.
[3]交通部公路规划设计院.公路自然区划标准(JTJ 003-86)[S].北京:人民交通出版社,1986.
[4]孙鸿烈,张荣祖.中国生态环境建设地带性原理与实践[M].北京:科学出版社,2004.
[1]交通部公路规划设计院.公路自然区划标准(JTJ 003-86)[S].北京:人民交通出版社,1986.
[2]孙鸿烈,张荣祖.中国生态环境建设地带性原理与实践[M].北京:科学出版社,2004.
[3]交通部公路科学研究所.公路沥青路面施工技术规范(JTG F40-2004)[S].北京:人民交通出版社,2004.
[4]沈金安,道路沥青及沥青混合料的气候分区及关键性技术指标[J].中国公路学报,1997,10(1):1-9.
[1]中交公路规划设计院.公路水泥混凝土路面设计规范(JTG D40-2002)[S].北京:人民交通出版社,2003.
[2]杨政.混凝土道面温度状况的初步分析[R].空军后勤部工程设计局,1980.
[3]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论和参数[R],1982.
[4]交通部公路规划设计院,同济大学.水泥混凝土路面设计理论、方法和参数研究[R],1986.
[5]姚祖康.水泥混凝土路面设计理论和方法[M].北京:人民交通出版社,2003.
[1]交通部公路规划设计院.公路自然区划标准(JTJ 003-86)[S].北京:人民交通出版社,1986.
[2]孙鸿烈,张荣祖.中国生态环境建设地带性原理与实践[M].北京:科学出版社,2004.
[3]李斌.全国道路气候分区修正方案说明[J].公路,1959年12月15期:33-36.
[4]西安公路学院公路系道路教研室.试论中国公路自然区划[J].汽车与公路,1975年,1975 (2):72-109
[5]耿大定,陈传康,杨吾扬等.论中国公路自然区划[J].地理学报,1978,33(1)49-62.
[1]Penman,H.L.Natural evaporation from open water,bare,grass[C].Proc.Rol.Soc.London.A193,1948,London.
[2]Wayne S.Meyer.Standard reference evaporation calculation for inland,south eastern Australia[R].35/98,CSIRO Land and Water,Adelaide Laboratory,1999.
[3]Environmental and Water Resources Institute of the ASCE.The ASCE standard reference evapotranspiration equation[S].2001.
[4]Richard G.Allen,Luis S.Pereira,Dirk Raes et al..FAO irrigation and drainage paper No.56,crop evapotranspiration:guidelines for computing crop water requirements[R].FAO,Water Resources,Development and Management Service,Rome,Italy,2000.
[5]孟猛,倪健,张治国.地理生态学的干燥度指数及其应用评述[J].植物生态学报,2004,28(6):853-861.
[6]中国气象局.地面气象观测规范[S].北京:气象出版社,2003.
[7]高国栋,陆渝蓉.中国地表面辐射平衡与热量平衡[M].北京:科学出版社,1982.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |