Coupling Deformation between the Non-uniform Settlement of Track-structure and Subgrade of the High-speed Railway above the Mined-out Areas

China's high-speed railway has become world-famous, how to realize the safe operation of the high-speed railway passing through the mined-out areas in China will face many new challenges.To reveal the deformation and dynamic response characteristics of the track-structure and subgrade of the high-speed railway above the mined-out areas, the modeling method of transient vibration in ABAQUS was proposed, and the three-dimension computational model was built.The deformation characteristics, spatiotemporal evolution mechanism, and the law of interlayer separation under different wavelengths and amplitudes of uneven settlement of the subgrade of the high-speed railway were analyzed.The curvature radius was proposed to characterize the separation between the trackstructure and the subgrade comprehensively.Results show that the deflection of the track structure is comprehensively controlled by the wavelength and amplitude of the foundation settlement.When the wavelength is greater than 30 m and the amplitude is less than 0.9 m, the deflection of the track-structure increases from fast to slow and gradually tends to be stable, and it can keep a high following with the subgrade.The separation between the track structure and the subgrade is more prominent when the radius of curvature is less than 200 m.Otherwise, it is very weak.In addition, the dynamic response of the track structure in the separated section is more intense than that in the unseparated section.The conclusions obtained in this study can provide the reference for the construction of the high-speed railway above the mined-out areas.