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Abstract

In recent years, expressway reconstruction and expansion projects have been increasing, and expansions from four to eight lanes and from six to ten lanes are relatively common. In the design process of reconstruction and expansion, the rationality of the design for overlay, widening, and lap treatment of “white-to-black” pavement has a significant impact on pavement reconstruction quality. The formation of ultra-wide pavement after reconstruction, especially in sections such as acceleration and deceleration lanes, areas with small composite longitudinal slopes, and the bottom of concave curves, makes pavement drainage difficult, which affects driving safety to some extent. Meanwhile, milling waste generated during pavement reconstruction should be fully recycled to save costs and reduce environmental pollution. Stone materials generated from tunnel excavation are often discarded or only used for subgrade filling, causing resource waste;they can be fully utilized in structural layers of pavement. Based on the practical achievements of the Shenshan West Expressway reconstruction and expansion project, key technologies for the overlay, widening, and lap treatment design of “white-to-black ” pavement, drainage design for ultra-wide pavement, waste recycling, and utilization of tunnel slag were proposed in this paper. Currently, the Shenshan West Expressway reconstruction and expansion project has been completed and accepted for two years, and the overall pavement performance is excellent, which indicates that the adopted key technologies for pavement design in the reconstruction and expansion project are feasible.

Publication Date

4-24-2026

DOI

10.14048/j.issn.1671-2579.2026.02.010

First Page

86

Last Page

94

Submission Date

April 2026

Reference

[1] 广东省交通规划设计研究院集团股份有限公司 . 沈阳至海口国家高速公路汕尾陆丰至深圳龙岗段改扩建项目设计资料 [Z]. 广州: 广东省交通规划设计研究院集团股份有限公司,2020. Guangdong Communication Planning&Design Institute Group Co., Ltd. Design data of the reconstruction and expansion project of Shenyang-Haikou national expressway from Lufeng (Shanwei) to Longgang (Shenzhen) [Z]. Guangzhou: Guangdong Communication Planning & Design Institute Group Co., Ltd., 2020.
[2] 中交公路规划设计院有限公司. 公路水泥混凝土路面设计规范: JTG D 40—2011 [S]. 北京: 人民交通出版社, 2011. China Road & Bridge Corporation Highway Consultants Co., Ltd. Specifications for design of highway cement concrete pavements: JTG D 40—2011 [S]. Beijing: China Communications Press, 2011.
[3] 许新水. 碾压混凝土基层在高速公路改扩建工程中的应用[J]. 广东公路交通, 2021, 47(6): 18-23. XU Xinshui. Application of roller compacted concrete base in expressway reconstruction and expansion project[J]. Guangdong Highway Communications, 2021, 47(6): 18-23.
[4] 曾鹏, 刘敏, 邱志雄. 摊铺式碾压混凝土结构方案设计研究[J]. 广东公路交通, 2024, 50(5): 17-22. ZENG Peng, LIU Min, QIU Zhixiong. Research on the design of paved roller compacted concrete structure scheme [J]. Guangdong Highway Communications, 2024, 50(5): 17-22.
[5] 朱春福, 程培峰, 赵广宇. 荷载与温度耦合作用下 “白加黑”复合式路面沥青加铺层的受力分析 [J]. 中外公路, 2020, 40(2): 40-45. ZHU Chunfu, CHENG Peifeng, ZHAO Guangyu. Stress analysis of add itional pavement of “white and black ” composite pavement under coupling of load and temperature [J]. Journal of China & Foreign Highway, 2020, 40(2): 40-45.
[6] 闫亚鹏, 谢晓军, 柯文豪. 机荷高速公路改扩建路面拼接设计要点研究 [J]. 公路, 2023, 68(12): 66-70. YAN Yapeng, XIE Xiaojun, KE Wenhao. Research on key points of pavement splicing design for reconstruction and expansion of Ji-He Expressway [J]. Highway, 2023, 68(12): 66-70.
[7] 刘朝晖, 黄优, 余时清, 等. 刚柔复合式路面结构与材料及发展趋势 [J]. 中外公路, 2024, 44(2): 27-53. LIU Zhaohui, HUANG You, YU Shiqing, et al. Structure and material of rigid-flexible composite pavements and development [J]. Journal of China & Foreign Highway, 2024, 44(2): 27-53.
[8] 延西利, 艾涛, 黄爱民, 等. 白加黑路面结构的粘结与防裂力学分析计算 [J]. 中外公路, 2015, 35(6): 57-60. YAN Xili, AI Tao, HUANG Aimin, et al. Mechanical analysis and calculation of bonding and crack prevention of white and black pavement structure [J]. Journal of China & Foreign Highway, 2015, 35(6): 57-60.
[9] 王立勇, 冯培. 市政道路白加黑路面反射裂缝防治技术研究 [J]. 城市道桥与防洪, 2020 (5): 56-58, 12. WANG Liyong, FENG Pei. Study on prevention technique of reflection crack for cement plus asphalt pavement of municipal road [J]. Urban Roads Bridges & Flood Control, 2020 (5): 56-58, 12.
[10] 吴健, 吴智勇, 江兴旺, 等. 公路改扩建设计思路: 路基、路面及排水 [J]. 中外公路, 2014, 34(2): 22-26. WU Jian, WU Zhiyong, JIANG Xingwang, et al. Design ideas of highway reconstruction and extension: Subgrade, pavement and drainage [J]. Journal of China & Foreign Highway, 2014, 34(2): 22-26.
[11] 于立泽, 刘作强, 张海涛, 等. 功能性沥青混合料排水特性的评价研究 [J]. 重庆理工大学学报 (自然科学), 2021, 35(8): 106-113. YU Lize, LIU Zuoqiang, ZHANG Haitao, et al. Study on drainage characteristics of functional asphalt mixture [J]. Journal of Chongqing University of Technology (Natural Science), 2021, 35(8): 106-113.
[12] 李松斌, 徐科, 温俊涛, 等. 高温多雨区排水沥青路面设计及施工关键技术研究 [J]. 公路, 2021, 66(7): 88-94. LI Songbin, XU Ke, WEN Juntao, et al. Research on key technologies of drainage asphalt pavement design and construction in high temperature and rainy area [J]. Highway, 2021, 66(7): 88-94.
[13] 李红平, 吴德军, 杨晨光. 不同改性沥青排水路面(OGFC- 13)路 用 性 能 的 研 究 [J]. 公 路, 2009, 54(6): 151-154. LI Hongping, WU Dejun, YANG Chenguang. Study on road performance of different modified asphalt drainage pavement (OGFC- 13)[J]. Highway, 2009, 54(6): 151-154.
[14] 谭竣, 张杰. 旧沥青路面混合料再生技术推广关键问题和应对分析 [J]. 公路, 2021, 66(3): 246-249. TAN Jun, ZHANG Jie. Key problems and countermeasures in popularizing recycling technology of old asphalt pavement mixture [J]. Highway, 2021, 66(3): 246-249.
[15] 牛文广. 沥青路面就地热再生技术现状与发展历程 [J]. 中外公路, 2019, 39(5): 50-59. NIU Wenguang. Review and development of in-place hot recycling technology of asphalt pavement [J]. Journal of China & Foreign Highway, 2019, 39(5): 50-59.
[16] 杨彦海, 崔宏, 杨野, 等. 沥青路面厂拌热再生技术使用效果分析与评价 [J]. 中外公路, 2023, 43(1): 63-68. YANG Yanhai, CUI Hong, YANG Ye, et al. Analysis and evaluation of application effect of hot mix plan regeneration technology in asphalt pavement [J]. Journal of China & Foreign Highway, 2023, 43(1): 63-68.
[17] 常浩. 乳化沥青厂拌冷再生技术在路面改造工程中的应用[J]. 中国公路, 2021 (13): 95-96. CHANG Hao. Application of emulsified asphalt cold recycling technology in pavement reconstruction project[J]. China Highway, 2021 (13): 95-96.
[18] 任瑞波, 尹利洋, 徐强, 等. RAP掺量对温再生沥青混合料力学性能和路用性能的影响规律研究 [J]. 中外公路, 2024, 44(1): 66-75. REN Ruibo, YIN Liyang, XU Qiang, et al. Influence of RAP content on mechanical properties and pavement performance of warm recycled asphalt mixture [J]. Journal of China & Foreign Highway, 2024, 44(1): 66-75.
[19] 张蔚博, 张羽, 崔国柱. 隧道洞渣在鹤大高速公路科技示范工程中的综合应用 [J]. 公路, 2016, 61(6): 263-267. ZHANG Weibo, ZHANG Yu, CUI Guozhu. Comprehensive application of tunnel slag in science and technology demonstration project of Heda expressway [J]. Highway, 2016, 61(6): 263-267.
[20] 陈书平, 吴大鸿. 隧道洞渣加工机制砂在高速公路建设中的应用 [J]. 公路, 2017, 62(4): 249-252. CHEN Shuping, WU Dahong. Application of machine-made sand in tunnel slag processing in expressway construction [J]. Highway, 2017, 62(4): 249-252.
[21] 杨祖涛, 柳力, 刘靖宇. 石灰岩隧道洞渣集料技术评价及其在沥青混合料中的应用研究 [J]. 市政技术, 2023, 41(8): 115-121. YANG Zutao, LIU Li, LIU Jingyu. Research on technical evaluation and application in asphalt mixture of limestone tunnel slag aggregates [J]. Journal of Municipal Technology, 2023, 41(8): 115-121.

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