获奖状况
(1)陕耀(1/20),软土地区高铁不停运接轨工程关键技术与装备,中国铁道学会科学技术二等奖,2022
(2)陕耀(12/15),高速铁路路基不均匀沉降控制理论和技术,教育部科技进步一等奖,2016
近三年部分代表性论文
[1]Shan, Y.*, Li, X., and Zhou, S. (2023). Multi-objective optimisation methodology for stiffness combination design of bridge-embankment transition zones in high-speed railways.Computers and Geotechnics, 155, 105242.(IF: 5.218, JCR Q1区,中科院Top期刊)
[2]Zhou, S,Shan, Y.*, Wu, Z., Zhao, W., Yang, L., and Lin, Y. (2023). Lateral deformation of high-speed railway foundation induced by adjacent embankment construction in soft soils: Numerical and field study.Transportation Geotechnics, 41, 101005. (IF: 4.938, JCR Q1区)
[3]Huang, S., Qian, Y., andShan, Y.(2023). Effect of flexible membrane in large-scale triaxial test DEM simulations.Construction and Building Materials.(IF: 7.693, JCR Q1区,中科院Top期刊)
[4]陕耀*,李欣然,周顺华.双介质耦合刚性基弹性层平面应变型导波模式及界面散射能量分配[J].力学学报, 2023, Vol. 55 (5): 111-123.
[5]Xiao, F.,Shan, Y.*, Zhou, G., Lin, W., and Li, J. (2023). Critical transverse differential settlement between modern tram pile-plank-supported subgrade and surrounding pavement subgrade.Transportation Geotechnics, Vol. 38, 100896.(IF: 4.938, JCR Q1区)
[6]Dai, N.,Shan, Y.*, Fu, L., Ye, W., Guo, P., Zhou, S., Rackwitz, F., and Stolle, D. (2022). Vibro-fluidization of sand under coupled static loading and high-frequency cyclic loading.Canadian Geotechnical Journal, Vol.59 (1), 101-110.(ESI前1%高被引, IF: 4.167, JCR Q2区)
[7]Shan, Y.*, Xiao, W., Xiang, K., Wang, B., and Zhou, S. (2022). Semi-automatic construction of pile-supported subgrade adjacent to existing railway.Automation in Construction, Vol. 134: 104085.(IF: 10.517, JCR Q1区,中科院Top期刊)
[8]Shan, Y.*, Ma, W., Xiang, K., Wang, B., Zhou, S., and Guo, H. (2022).Vertical dynamic response of a floating pile in unsaturated poroelastic media based on the fictitious unsaturated soil pile model.Applied Mathematical Modelling, Vol. 109, 209-228.(IF: 5.336, JCR Q1区,中科院Top期刊)
[9]Liu, C.,Shan, Y.*, Wang, B., Zhou, S., and Wang, C. (2022). Reinforcement load in geosynthetic-reinforced pile-supported model embankments.Geotextiles and Geomembranes, Vol. 50(6), 1135-1146.(IF: 5.839, JCR Q1区,中科院Top期刊)
[10]Ma, W.,Shan, Y.*, Xiang, K., Wang, B., Zhou, S. (2022).Torsional dynamic response of a pipe pile in homogeneous unsaturated soils.Computers and Geotechnics, Vol. 143 (7-8): 104607.(IF: 5.218, JCR Q1区,中科院Top期刊)
[11]Ma, W.,Shan, Y.*, Xiang, K., Wang, B., Zhou, S. (2022).Vertical dynamic impedance of end-bearing pile groups embedded in homogeneous unsaturated soils.International Journal for Numerical and Analytical Methods in Geomechanics, Vol. 46(6), 1154-1176.(IF: 4.229, JCR Q1区)
[12]Zhou, S.,Shan, Y.*, Wang, C., Yao, Q., Jia, Y., and Lin, Z. (2022). Theoretical method for additional horizontal stress of isolation piles due to adjacent loading.International Journal for Numerical and Analytical Methods in Geomechanics,Vol.46(9), 1581-1606.(IF: 4.229, JCR Q1区)
[13]Ye, W., Fu, L.,Shan, Y., Dai, N., Guo, P., Zhou, S., and Rackwitz, F. (2022). Experimental study on dynamic characteristics of granular materials under axial high-frequency vibration.Acta Geotechnica. Vol. 17, 3211-3227.(IF: 5.570, JCR Q1区,中科院Top期刊)
[14]Wu, Y.,Shan, Y.*, Lai, Y., and Zhou, S. (2022). Method of calculating land surface temperatures based on the low-altitude UAV thermal infrared remote sensing data and the near-ground meteorological data.Sustainable Cities and Society, Vol. 78: 103615.(IF: 10.696, JCR Q1区,中科院Top期刊)
[15]Wu, Y.,Shan, Y.*, Zhou, S., Lai, Y., and Xiao, J. (2022). Estimating anthropogenic heat from an urban rail transit station: A case study of Qingsheng metro station, Guangzhou, China.Sustainable Cities and Society, Vol. 82: 103895.(IF: 10.696, JCR Q1区,中科院Top期刊)
[16]Ma, W.,Shan, Y.*, Wang, B., Zhou, S., and Wang, C. (2022).Analytical solution for trosional vibration of an end-bearing pile in nonhomogeneous unsaturated soil.Journal of Building Engineering, Vol. 57, 104863.(IF: 7.144, JCR Q1区)
[17]Zhou, S., Jiang, H., Fu, L.,Shan, Y., Ye, W., and Guo, P. (2022). Experimental study on deformation and strength characteristics of granular soil-structure interface under coupled monotonic shear and vibration using a modified direct shear apparatus.Acta Geotechnica,https://doi.org/10.1007/s11440-022-01772-6(IF: 5.570, JCR Q1区,中科院Top期刊)
[18]Shan, Y.*, Huang, A., Qian, X., Zhou, S., Zhou, X. (2022). Long-term in-situ monitoring on foundation settlement and service performance of a novel pile-plank-supported ballastless tram track in soft soil regions.Transportation Geotechnics, Vol. 36, 100821. (IF: 4.938, JCR Q1区)
[19]陕耀*,陈平,周顺华,叶伟涛,代宁. (2022).高频循环荷载作用下砂土抗剪强度试验研究[J].铁道学报, https://kns.cnki.net/kcms/detail/11.2104.U.20220428.0831.002.html
[20]Shan, Y.*, Cheng, G., Gu, X., Zhou, S., Xiao, F. (2021). Optimization of design parameters of displacement isolation piles constructed between a high-speed railway bridge and a double-line metro tunnel: From the view point of vibration isolation effect.Computers and Geotechnics, Vol. 140 (3): 104460.(IF: 5.218, JCR Q1区,中科院Top期刊)
[21]Shan, Y.*, Zhou, X., and Zhou, S. (2021). One-dimensional semi-analytical model on longitudinal thermal loads of a tram track pile-plank structure buried beneath the pavement.Archives of Civil and Mechanical Engineering, Vol. 21 (1): 36.(IF: 4.042, JCR Q2区)
[22]Shan, Y.*, Wang, B., Zhang, J., and Zhou, S. (2021).The influence of dynamic loading and thermal conditions on tram track slab damage resulting from subgrade differential settlement.Engineering Failure Analysis. Vol. 128 (2): 105610.(IF: 3.635, JCR Q2区)
[23]Shan, Y.*, Zhou, X., Cheng, G., Jiang, Z., and Zhou, S. (2021). In-situ test on impact loads of a five-module 100% low-floor tram and the prediction of damage characteristics of a pile-plank-supported tram track.Construction and Building Materials, Vol.277 (11-12), 122320.(IF: 7.693, JCR Q1区,中科院Top期刊)
[24]Shan, Y.*, Zhou, S., Wang, B., and Ho, C. L. (2020). Differential settlement prediction of ballasted tracks in bridge-embankment transition zones.Journal of Geotechnical and Geoenvironmental Engineering, 146(9), 04020075.(IF: 4.600, JCR Q1区)
[25]Zhou, S., Wang, B., and Shan, Y.* (2020). Review of research on high-speed railway subgrade settlement in soft soil area.Railway Engineering Science, Vol. 28 (1), 129-145.
[26]陕耀*,苏瓅,周顺华.倾斜界面耦合弹性层中的渡越辐射能[J].力学学报, 2020, Vol. 52 (1): 111-123.
[27]陕耀*,陆义,周顺华,王炳龙. (2020).有轨电车桩板结构路基与道路路基横向差异沉降离心试验研究[J].岩石力学与工程学报, Vol. 39 (5), 1049-1060.