Research on Construction Technology of Municipal Road and Bridge Asphalt Pavement
DOI:
https://doi.org/10.53469/jtpms.2023.03(11).03Keywords:
municipal roads and bridges, Asphalt pavement, Construction technology qualityAbstract
At present, in the construction of municipal roads and bridges, asphalt concrete pavement is very common. Asphalt concrete pavement has excellent impermeability and crack resistance, and is not prone to cracks in engineering construction. Moreover, the construction is rapid, highly meeting people's needs for road comfort and convenience. To effectively ensure the construction quality of municipal road and bridge asphalt pavement, it is necessary to accurately and comprehensively grasp the construction technology to ensure the safety of road traffic.
References
Zhang Jing Technical Analysis of Asphalt Pavement Construction in Municipal Roads [J]. 2021 (2013-28): 215-215
Yang Bing Research on municipal asphalt Roadworks construction technology [J] Theoretical Research on Urban Construction (Electronic Version), 2020, No.331 (13): 109-109
Wen Fugui Analysis of the construction process and quality control technology of municipal asphalt concrete pavement [J] Commodity and Quality, 2020000 (004): 239
Zhang Shumin Analysis of Quality Control Technology for Asphalt Concrete Pavement Construction of Municipal Roads [J] Goods and Quality, 2019 (044): 225
Qiu Zixun, Zhou Yahong. Digital Economy Development and Regional Total Factor Productivity - An Analysis Based on the National-level Comprehensive Pilot Zone of Big Data[J]. Financial Research, 2021, 47(07): 4-17.
Liang Haimeng, Shen Danhong. Policy effects of digital economy development strategy on industrial structure upgrading - A quasi-natural experiment based on national-level big data comprehensive pilot zone[J]. Modern Management Science, 2023(01): 46-55.
XU Lin, HOU Linqi, CHENG Guangbin. Research on the Innovation Effect of State-level Big Data Comprehensive Pilot Zone[J]. Science and Technology Progress and Countermeasures, 2022, 39(20): 101-111.
Chen Wen, Chang Qi. Has big data empowered green innovation in enterprises - a quasi-natural experiment based on a national-level big data comprehensive pilot zone[J]. Financial Science, 2022(08): 76-92.
SHE Shuo, WANG Qiao, ZHANG A-cheng. Technological Innovation, Industrial Structure and Urban Green Total Factor Productivity - An Impact Channel Test Based on National Low Carbon City Pilot[J]. Economic and Management Research, 2020, 41(08): 44-61.
Fang Dongli. Impact of digital economy on energy utilization efficiency in Chinese cities - based on the perspective of technology empowerment and technology spillover[J]. Resource Science, 2023, 45(02): 296-307.
LU Xuehuan, BAI Tingting. How can green technology innovation effectively reduce haze pollution? [J]. China Soft Science, 2020(06): 174-182+191.
Cheng P, Wang X, Choi B, et al. Green Finance, International Technology Spillover and Green Technology Innovation: a New Perspective of Regional Innovation Capability[J]. Sustainability, 2023, Vol.15(No.1112): 1112.
Chang Hao-Liang. Digital Economy, Green Technology Innovation and Carbon Emission Intensity: An Empirical Study Based on China's Urban Panel Data[J]. Business Research, 2023(02): 73-80.
Liu J, Zhao M, Zhang C, et al. Analysis of the Influence of Heterogeneous Environmental Regulation on Green Technology Innovation[J]. Sustainability, 2023, Vol.15(No.3649): 3649.
Yao Zhanqi. Can Pilot Policies for Innovative Development of Trade in Services Promote Green Innovation? [J]. Reform, 2023(03): 91-107.
XU Jia, CUI Jingbo. Low-carbon cities and corporate green technology innovation [J]. China Industrial Economy, 2020(12): 178-196.