Mechanical Properties of Asphalt Pavement Structure in Highway Tunnel 被引量：4

Mechanical Properties of Asphalt Pavement Structure in Highway Tunnel

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摘要 A linear full 3D finite element method (FEM) was performed in order to present the key design parameters of highway tunnel asphalt pavement under double-wheel load on rectangular loaded area considering horizontal contact stress induced by the acceleration/deceleration of vehicles.The key design parameters are the maximum horizontal tensile stresses at the surface of the asphalt layer,the maximum horizontal tensile stresses at the bottom of the asphalt layer and the maximum vertical shear stresses at the surface of the as- phalt layer were calculated.The influencing factors such as double-wheel weight;asphalt layer thickness;base course stiffness modulus and thickness;and the contact conditions among the structure layers on these key design parameters were also examined separately to propose construction procedures of highway tunnel asphalt pavement. A linear full 3D finite element method （FEM） was performed in order to present the key design parameters of highway tunnel asphalt pavement under double-wheel load on rectangular loaded area considering horizontal contact stress induced by the acceleration/deceleration of vehicles. The key design parameters are the maximum horizontal tensile stresses at the surface of the asphalt layer, the maximum horizontal tensile stresses at the bottom of the asphalt layer and the maximum vertical shear stresses at the surface of the asphalt layer were calculated. The influencing factors such as double-wheel weight; asphalt layer thickness; base course stiffness modulus and thickness; and the contact conditions among the structure layers on these key design parameters were also examined separately to propose construction procedures of highway tunnel asphalt pavement.

作者石春香郭忠印

机构地区 Shanghai Institute of Technology Tongji University

出处《Journal of Shanghai Jiaotong university(Science)》 EI 2008年第2期206-210,共5页 上海交通大学学报（英文版）

基金 Western Traffic Technology Funds(No.2002-318-000-23)

关键词隧道沥青路面三维有限元分析水平力 tunnel asphalt pavement structure three-dimensional finite element method horizontal force horizontal tensile stress vertical shear stress

分类号 U452.2 [建筑科学—桥梁与隧道工程]

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参考文献9

1Andrew C C,,Reynaldo R.Report on the prediction of surface-initiated longitudinal wheel path cracking in asphalt pavement[].Road Materials and Pavement Design.2004
2Jacobs M M J,De bont A H,Molenaar A A A,et al.Cracking in asphalt concrete pavements[].Proc th Int Conf on Asphalt Pavements.1992
3Brown M G,Barksdale R D.Pavement design and ma- terials[].Proc th Int Conf on the Struc Design of Asphalt Pavements.1987
4Dauzats M,Rampal A.Mechanism of surface cracking in wearing courses[].Proe th Int Conf on the Struc- tural Design of Asphalt Pavements.1988
5Cebon D.Vehicle-generated road damage:a review[].Vehicle System Dynamics.1989
6Komoruya K,Yoshida T,Nitta H.Surface longitudi- nal cracks in asphalt concrete pavement[].Proc th Annual Transportation Research Board Meeting.2001
7Liang Y,Zhong-yin G,Zhi-yong D.Survey and anal- ysis on the working environment of highway tunnel pavement[].Transportation Science & Technology.2004
8Myersl R R,,Ruth B,Drakos C.Measurement of con- tact stresses for different truck tyre to evaluate their in- fluence on near-surface cracking and rutting[]..1999
9Ikeda T,Itoh m.Consideration on equations for esti- mating tire contact pressure of a large truck[].Proc th Annul Conference of the Japan Society of Civil Engineers.1985

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2杨晓林,尹殊勇.气动技术在工业生产中的应用[J].建材技术与应用,2004(4):19-20. 被引量：7
3赵中敏,张秋云,杨广才.PLC控制系统设计[J].机床电器,2007,34(2):37-40. 被引量：44
4龚肖新.压入装置继电器控制气动系统的设计[J].液压与气动,2007,31(6):32-33. 被引量：3
5徐富新,申冬玲,吴承德,刘蓓蓓,何继善.线阵CCD图像传感器的数据采集及其电路设计[J].湖南师范大学自然科学学报,2007,30(2):51-55. 被引量：7
6ZHANG S M, ZHU Y Q, ZHAO Y C, et al. Comparative analysis of limit displacements for tunnels at the unlined and primary support stages [J]. International Journal of Rock Mechanics and Mining Sciences, 2004,41(3): 774-779.
7KWANGHO Y, YEONJUN P, JUN S, et al. Risk analysis for determination of a tunnel support pattern [J]. Tunnelling and Underground Space Technology, 2005, 20(5): 479-486.
8TZAMOS S, SOFIANOS A I. Extending the Q system's prediction of support in tunnels employing fuzzy logic and extra parameters [J]. International Journal of Rock Mechanics and Mining Sciences, 2006, 43(6): 938-949.
9DODSON M M. Darwin's law of natural selection and Thom's theory of catastrophes [J]. Mathematical Biosciences, 1976, 28(3): 243-274.
10BIZJAK K F, PETKOVEK B. Displacement analysis of tunnel support in soft rock around a shallow high- way tunnel at Golovec [J]. Engineering Geology, 2004, 75(1): 89-106.

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7许海亮,覃吉宁,任合欢,何炼.行车荷载作用下含埋地管道沥青路面结构受力状况分析[J].国防交通工程与技术,2019,17(5):24-28.
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2胡曙光,黄绍龙.Porous Flame-retarded Asphalt Pavement for Highway Tunnel[J].Journal of Wuhan University of Technology(Materials Science),2008,23(5):750-754. 被引量：3
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4Mieczystaw Slowik Mikolaj Bartkowiak.Calculation of Measurement Uncertainty for Stiffness Modulus of Asphalt Mixture[J].Journal of Civil Engineering and Architecture,2015,9(11):1325-1333.
5CKN在华成立第七家工厂[J].汽车与配件,2012(19):11-11.
6方恒亮.沥青路面浅层强度探测仪检测参考标准研究[J].城市道桥与防洪,2012(12):58-61.
7ZHANG Zi-xin,SHEN Mang-jie,TENC Li.Back-Analysis of the Response of Shield Tunneling by 3D Finite Element Method[J].Journal of Shanghai Jiaotong university(Science),2013,18(3):298-305.
8刘沐宇.Genetic Optimization Method of Asphalt Pavement Based on Rutting and Cracking Control[J].Journal of Wuhan University of Technology(Materials Science),2003,18(1):72-75. 被引量：2
9姜允庆.沥青路面流变产生车辙的原因分析[J].价值工程,2013,32(11):98-99.
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Mechanical Properties of Asphalt Pavement Structure in Highway Tunnel 被引量：4

参考文献9

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