Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Mechanical properties of coarse asphalt Mixture-Paved trackbed under High-Speed moving train loads
https://orcid.org/0000-0002-2247-9652
https://orcid.org/0000-0002-4692-7464
Highlights Viscoelastic parameters of coarse-grained SBS asphalt mixture were determined. Numerical modeling of the asphalt-paved trackbed was verified by multiple-source. Integral vertical compatibility analysis on asphalt-paved trackbed was conducted.
Abstract The long-term stability of the substructure is a critical guarantee for the safety and ride comfort of high-speed railway (HSR) operations. The asphalt mixture-paved trackbed (APT) can not only play a favorable role in preventing and draining water on the top of the subgrade but also be beneficial to the gradual change of vertical stiffness between layers. This paper determines a coarse but dense-graded asphalt mixture suitable for the APT and numerically analyzes the mechanical properties of APT under high-speed moving train loads. The results indicate that the SBS-modified asphalt mixture (SBS-25) with the optimum asphalt content (OAC) of 4.2 % is more appropriate than the crumb rubber-modified asphalt mixture (CRMA-25) for the APT. The dynamic stress in the subgrade of APT is significantly determined by the conditions of the AC layer. Meanwhile, the vibration attenuation of APT is directly related to temperature change. Compared with the traditional ballastless track, the vibration acceleration of APT with trackbed thickness of 300 mm reduces by 20.1 % at 20 ℃ while only reducing by 1.7 % at 40℃. Moreover, the greater the structural stiffness of the APT, the stronger the control on dynamic deformation of each layer in the subgrade, and the influence on the formation is weaker than that on the bottom layer of the subgrade. The findings hopefully contribute to the APT substructure design; however, further verification of real engineering still needs to be conducted by field or full-scale tests.
Mechanical properties of coarse asphalt Mixture-Paved trackbed under High-Speed moving train loads
https://orcid.org/0000-0002-2247-9652
https://orcid.org/0000-0002-4692-7464
Highlights Viscoelastic parameters of coarse-grained SBS asphalt mixture were determined. Numerical modeling of the asphalt-paved trackbed was verified by multiple-source. Integral vertical compatibility analysis on asphalt-paved trackbed was conducted.
Abstract The long-term stability of the substructure is a critical guarantee for the safety and ride comfort of high-speed railway (HSR) operations. The asphalt mixture-paved trackbed (APT) can not only play a favorable role in preventing and draining water on the top of the subgrade but also be beneficial to the gradual change of vertical stiffness between layers. This paper determines a coarse but dense-graded asphalt mixture suitable for the APT and numerically analyzes the mechanical properties of APT under high-speed moving train loads. The results indicate that the SBS-modified asphalt mixture (SBS-25) with the optimum asphalt content (OAC) of 4.2 % is more appropriate than the crumb rubber-modified asphalt mixture (CRMA-25) for the APT. The dynamic stress in the subgrade of APT is significantly determined by the conditions of the AC layer. Meanwhile, the vibration attenuation of APT is directly related to temperature change. Compared with the traditional ballastless track, the vibration acceleration of APT with trackbed thickness of 300 mm reduces by 20.1 % at 20 ℃ while only reducing by 1.7 % at 40℃. Moreover, the greater the structural stiffness of the APT, the stronger the control on dynamic deformation of each layer in the subgrade, and the influence on the formation is weaker than that on the bottom layer of the subgrade. The findings hopefully contribute to the APT substructure design; however, further verification of real engineering still needs to be conducted by field or full-scale tests.
Mechanical properties of coarse asphalt Mixture-Paved trackbed under High-Speed moving train loads
https://orcid.org/0000-0002-2247-9652
https://orcid.org/0000-0002-4692-7464
Highlights Viscoelastic parameters of coarse-grained SBS asphalt mixture were determined. Numerical modeling of the asphalt-paved trackbed was verified by multiple-source. Integral vertical compatibility analysis on asphalt-paved trackbed was conducted.
Abstract The long-term stability of the substructure is a critical guarantee for the safety and ride comfort of high-speed railway (HSR) operations. The asphalt mixture-paved trackbed (APT) can not only play a favorable role in preventing and draining water on the top of the subgrade but also be beneficial to the gradual change of vertical stiffness between layers. This paper determines a coarse but dense-graded asphalt mixture suitable for the APT and numerically analyzes the mechanical properties of APT under high-speed moving train loads. The results indicate that the SBS-modified asphalt mixture (SBS-25) with the optimum asphalt content (OAC) of 4.2 % is more appropriate than the crumb rubber-modified asphalt mixture (CRMA-25) for the APT. The dynamic stress in the subgrade of APT is significantly determined by the conditions of the AC layer. Meanwhile, the vibration attenuation of APT is directly related to temperature change. Compared with the traditional ballastless track, the vibration acceleration of APT with trackbed thickness of 300 mm reduces by 20.1 % at 20 ℃ while only reducing by 1.7 % at 40℃. Moreover, the greater the structural stiffness of the APT, the stronger the control on dynamic deformation of each layer in the subgrade, and the influence on the formation is weaker than that on the bottom layer of the subgrade. The findings hopefully contribute to the APT substructure design; however, further verification of real engineering still needs to be conducted by field or full-scale tests.
Mechanical properties of coarse asphalt Mixture-Paved trackbed under High-Speed moving train loads
Fang, Mingjing (Autor:in) / Hu, Ting (Autor:in) / Fang, Kun (Autor:in) / Hu, Zongwen (Autor:in) / Zhang, Xiaomeng (Autor:in) / Zhang, Jizhe (Autor:in) / Xiao, Jieling (Autor:in)
06.10.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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