https://orcid.org/0000-0002-3120-5573
References
- Xiao X, Cai DG, Lou LW, et al. Application of asphalt based materials in railway systems: a review. Constr Build Mater. 2021:304.
- Xiao X, Wang JY, Cai DG, et al. A novel application of thermoplastic polyurethane/waste rubber powder blend for waterproof seal layer in high-speed railway. Transp Geotech. 2021:27.
- Liu S, Chen XH, Ma YW, et al. Modelling and in-situ measurement of dynamic behavior of asphalt supporting layer in slab track system. Constr Build Mater. 2019;228:15.
- Zhou J, Chen XH, Fu QH, et al. Dynamic responses of asphalt concrete waterproofing layer in ballastless track. Appl Sci-Basel. 2019;9:19.
- Fu QH, Chen XH, Cai DG, et al. Mechanical characteristics and failure mode of asphalt concrete for ballastless track substructure based on in situ tests. Appl Sci-Basel. 2020;10:14.
- Li Q, Ding H, Rahman A, et al. Evaluation of Basic Oxygen Furnace (BOF) material into slag-based asphalt concrete to be used in railway substructure. Constr Build Mater. 2016;115:593–601.
- Shi YF, Cai DG, Yan HY, et al. Overview on technology of asphalt concrete waterproof sealing layer for high speed railway subgrade (in Chinese). Railway Eng. 2018;58:33–36.
- Fu QH, Chen XH, Cai DG, et al. Full-section asphalt concrete waterproof sealing structure for high speed railway subgrade (in Chinese). China Railway Sci. 2020;41:24–33.
- Yang EH, Wang KCP, Qiu YJ, et al. Asphalt concrete for high-speed railway infrastructure and performance comparisons. J Mater Civ Eng. 2016:28.
- Fang MJ, Cerdas SF. Theoretical analysis on ground vibration attenuation using sub-track asphalt layer in high-speed rails. J Mod Transp. 2015;23:214–219.
- Esmaeili MH, Naeimi M, Soltani B, et al. Reducing slab track vibrations by using asphalt concrete in the substructure. 2016.
- Yang EH, Wang KCP, Luo Q, et al. Asphalt concrete layer to support track slab of high-speed railway. Transp Res Rec. 2015;2505:6–14.
- Fang M, Qiu Y, Rose JG, et al. Comparative analysis on dynamic behavior of two HMA railway substructures. J Mod Transp. 2011;19:26–34.
- Li TF, Cai DG, Yan HY, et al. Temperature effect of whole section asphalt concrete waterproof sealing structure for high speed railway subgrade in severe cold regions (in Chinese). Railway Eng. 2018;58:63–68.
- Xu G, Zhou J, Chen XH, et al. Temperature features of the asphalt concrete waterproofing layer on high-speed railway in cold regions. Constr Build Mater. 2021:305.
- Lv S Research on performance and cracking mechanism of asphalt concrete layer under the ballastless track of high speed railway (in Chinese) [Master]. Beijing Jiaotong University; 2019.
- Chen XH, Zhu Y, Cai DG, et al. Investigation on interface damage between cement concrete base plate and asphalt concrete waterproofing layer under temperature load in ballastless track. Appl Sci-Basel. 2020;10:16.
- Chang HS, Lytton RL, Carpenter SH. Prediction of thermal reflection cracking in West Texas. 1976.
- Texas Department of Transportation. Test procedure for overlay test. 2019. Tex-248-F.
- Scullion T, Zhou J. Developing an upgraded overlay tester system to characterize the reflection cracking resistance of asphalt concrete: summary report. 2005.
- Wu H, Huang K, Song W, et al. Characterizing the fatigue cracking behaviors of OGFC pavements using the overlay tester. Constr Build Mater. 2021:307.
- Walubita LF, Fuentes L, Lee SI, et al. Correlations and preliminary validation of the laboratory monotonic overlay test (OT) data to reflective cracking performance of in-service field highway sections. Constr Build Mater. 2021:267.
- Barber ES. Calculation of maximum pavement temperatures from weather reports. Highway Res Board Bull. 1957:168.
- Sun LJ. Pavement Engineering Tongji University Press. 2012.
- Xiao X, Li J, Cai DG, et al. Evolution evaluation of high-speed railway asphalt concrete waterproofing layer during laboratory freeze–thaw cycles. Constr Build Mater. 2022:324.
- Martínez Soto F, Di Mino G. Optimization of the mix-design system for the sub-ballast railroad. J Traffic Transp Eng. 2017;5:5.