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基于路基压应变指标的沥青面层等效温度及系数 被引量:2

Equivalent Temperature for Asphalt Surface Layer and Coefficient Based on Subgrade Compression Strain
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摘要 基于路基压应变指标和疲劳损伤等效原则,提出沥青面层等效温度的概念及其计算公式;分析沥青面层温度状况与路基疲劳寿命的关系,总结基准状况下沥青面层等效温度的规律;引入路基疲劳寿命修正系数,建立基准状况下路基疲劳寿命修正系数与地区海拔、路表温度年均值及标准差之间的回归式,据此推算得到全国738个地区的基准路基疲劳寿命修正系数值,绘制了全国基准路基疲劳寿命修正系数等值线图.随后,建立了简便实用的基准路基疲劳寿命修正系数与年平均气温和月平均气温年极差之间的回归关系式.最后总结了非基准各因素对路基疲劳寿命修正系数的影响规律,给出了近似修正式. Based on subgrade compression strain index and the equivalency principal of cumulative fatigue damage, conception and calculation method of equivalent temperature for asphalt surface layer were put forward. The relationship between the temperature condition of asphalt surface layer and subgrade fatigue life was analyzed. The law of equivalent temperature for asphalt surface layer was summarized. By introducing modified coefficient to subgrade fatigue life, regression formula among modified coefficient , the altitude of asphalt pavement located, pavement surface average temperature and its standard deviation over the years was established. Accordingly, modified coefficients et 738 areas in China were calculated and a contour map of was draw. Then simple and practical regression formula betweenmodified coefficient and two common meteorological parameters., annual average temperature and difference of the highest and lowest monthly average temperature was established. Finally, the influence rules of various factors on modified coefficient to subgrade fatigue life were summarized and approximate modified formula was given.
作者 谈至明 胡洪龙
机构地区 同济大学道路与交通工程教育部重点实验室
出处 《同济大学学报(自然科学版)》 EI CAS CSCD 北大核心 2013年第7期1056-1060,共5页 Journal of Tongji University:Natural Science
关键词 沥青路面 路基压应变 疲劳寿命 面层等效温度 修正系数 asphalt pavement subgrade compression strain fatigue life equivalent temperature for surface layer modified coefficient
分类号 U416 [交通运输工程—道路与铁道工程]
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参考文献10

  • 1ERES Division of ARA, Inc. Guide for mechanistic-empirical design of new and rehabilitated pavement structures [R]. Washington D C Transportation Research Board, 2004.
  • 2Shell International Ltd. Shell pavement design manual: asphalt pavements and overlays for road traffic [R]. London: Shell International Ltd., 1981.
  • 3Witczak M W. Effective temperature analysis for permanent deformation of asphaltic mixtures [R]. Washington D C.. Strategic Highway Research Program of National Research Council, 1992.
  • 4SHRP. The superpave mix design manual for new construction and overlays [R]. Washington D C.. Strategic Highway Research Program of National Research Council, 1994.
  • 5Lukanen EO, Stubstad R, Briggs R C. Temperaturepredictions and adjustment factors for asphalt pavements[R]. Washington D C The Federal Highway Administration, 2000.
  • 6Park D Y, Buch N, Chatti K. Effective layer temperature prediction model and temperature correction via falling weight deflectometer delections [J]. Journal of the Transportation Research Board, 2001, 1764.. 97.
  • 7邹晓翎,谈至明.《基于多指标的沥青路面结构设计方法研究》报告:路面温度场研究[R].上海:同济大学交通运输工程学院,20II.
  • 8吁新华.沥青路面等效温度的研究[D].上海:同济大学交通运输工程学院,2011.
  • 9中交路桥技术有限公司.公路沥青路面设计指南[R].北京:中交路桥技术有限公司,2012.
  • 10胡洪龙,谈至明.路面结构的土基应力应变近似计算[J].同济大学学报(自然科学版),2013,41(4):542-546. 被引量:4

二级参考文献10

  • 1Franco M. Gomez-Ramirez, Marshall Thompson. Aircraft multiple wheel gear load interaction effects on airport flexible pavement response [ C]//Advanchg Airfield Pavements. Proceedings of the 2001 Airfield Pavement Specialty Conference. Chicago: American Society of Civil Engineers, 2001 : 123-132.
  • 2Warren K A, Howard I L, Brooks J A. Preliminary construction and instrumentation plan for geosynthetic- reinforced flexible pavement test sections[C]//Geo-Frontiers 2005. Austin: Geo-Institute of the American Society of Civil Engineers, 2005: 4091-4096.
  • 3Isaac L H, Kimberly A W. Preliminary analysis comparing measured responses of FWD and traffic data[C]//Geo Congress 2008: Characterization, Monitoring, and Modeling of Geo Systems. New Orleans.. American Society of Civil Engineerings, 2008..380-387.
  • 4Child L D, Nussbaum P J. Pressures at foundation soil interfaces under loaded concrete and soil-cement highway slabs [C]//American Society for Testing and Materials Conference. [S. l. ]: American Society for Testing and Materials, West Cohshohocken, 1962: 1243-1263.
  • 5Punya P Khanal, Michael S. Mamlouk. Program BIMODPAV for analysis of flexible pavements [J ]. Transportation Engineering, 1997: 43.
  • 6吁新华.沥青路面等效温度的研究[D].上海:同济大学交通运输工程学院,2011.
  • 7朱海波,贾朝霞,张宏博,王昊.重载交通下的路基工作区界定问题探讨[J].公路交通科技,2009,16(1):39-44. 被引量:18
  • 8林小平,凌建明,官盛飞,李聪.水泥混凝土路面路基应力水平分析[J].同济大学学报(自然科学版),2010,38(4):545-551. 被引量:26
  • 9廖公云,路畅,黄晓明.沥青路面结构力学响应的分层检测与分析[J].东南大学学报(自然科学版),2010,40(5):1061-1065. 被引量:12
  • 10谈至明,姚祖康,刘伯莹.层状结构顶面当量模量的近似计算[J].公路,2003,48(8):5-8. 被引量:19

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同济大学学报(自然科学版)
2013年 第7期

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