近五年相关论文发表
1. Jiang, X., Jin, H., Wang, E., Jin, X., Zhang, H., Wang, F., & Zhang, S. (2026). Radon emanation coefficient of frozen soil under different hydrothermal conditions in silty clay of Harbin China. Journal of Soils and Sediments, 26(3), 50.
2. Yan, H. L., Jin, H. J., Zhang, S. R., Zhang, Z., Jin, X. Y., Zhang, H., & Li, S. Z. (2025). Interpretable soil moisture prediction based on the SABO-CONV1D-BiLSTM model on the Tibetan Plateau. Advances in Climate Change Research, 16(5), 1022-1031.
3. Zhang, S., Jiang, X., Jin, H., Wang, E., Zhang, H., & Wang, F. (2025). Study on the response of radon gas release in permafrost areas to temperature changes. Environmental Geochemistry and Health, 47(11), 468.
4. Wang, Z., Zhang, S., Zhang, Z., Xie, C., Zhou, K., & Yuan, M. (2025). Study on the hydrothermal effect in ice materials under the polar glacier runway dynamic load. Case Stud Constr Mater 22: e04214.
5. Zhang, S., Jin, D., Jin, H., Li, C., Zhang, H., Jin, X., & Cui, J. (2024). Potential radon risk in permafrost regions of the Northern Hemisphere under climate change: A review. Earth-Science Reviews, 250, 104684.
6. Jin, D., Zhang, S., Zhang, H., & Zhang, Z. (2024). Study on electro-osmosis of frozen soil under different ambient temperatures. Drying Technology, 42(12), 1934-1944.
7. Zhai, J., Zhang, S., Zhang, Z., Melnikov, A., & Li, H. (2022). Study on the geometry characteristics of soil primary mineral particles under cryogenic action. Scientific Reports, 12(1), 16766.
8. Zhang, S., Korolev, V., Zhang, Z., Melnikov, A., Liu, Y., & Dong, T. (2022). Modeling the Effect of Mineral Particles of Mixture of Sandy Soil on Its Physical–Mechanical Properties Based on the Triangular Nomogram. Minerals, 12(2), 135.
9. Wenhui Wang, Huijun Jin, Ze Zhang, Mikhail N. Zhelezniak, Valentin Spektor, Raul-D. Șerban, Anyuan Li, Vladimir Tumskoy, Xiaoying Jin, Suiqiao Yang, Shengrong Zhang, Xiaoying Li, Mihala Șerban, Qingbai Wu and Yanan Wen. Monitoring ground surface deformation of ice-wedge polygon in Saskylakh, Northwest Yakutia, using the Interferometric Synthetic Aperture Radar (InSAR) and Google Earth Engine (GEE). Remote Sens. 2023, 15, 1335.
10. Liu Q, Zhang Z, Zhang S, et al. Testing and Characterization of the Freeze–Thawing Effect on the Morphology of Quartz Sand. Journal of Testing and Evaluation, 2023, 51(6).
11. Liu Q, Zhang Z, Zhang S, et al. The influence of particle morphology on the long-term strength of sandy soil under freeze-thaw cycles. Case Studies in Construction Materials, 2023, 18: e02196.
12. Liu Q, Zhang Z, Zhai J, Zhang S, et al. Geometric form changes of soil quartz minerals under Freeze-thaw weathering. Engineering Geology, 2023, 320: 107133.
13. Jun ZHANG, Ze ZHANG*, Shengrong ZHANG, Anatoli BROUCHKOV, Chunlei XIE, Shengxian ZHU. Numerical simulation of the influence of pile geometry on the heat transfer process of foundation soil in permafrost regions. Case Studies in Thermal Engineering 38 (2022) 102324.
14. Ze ZHANG, Jinbang ZHAI, Andrey MELNIKOV, Shengrong ZHANG, Xianglong LI. Cryogenic Soil—Product of Mineral Weathering Processes. Minerals 2022, 12, 805.
15. ZHANG, J., ZHOU, C., *ZHANG, Z., MELNIKOV, A., JIN, D., ZHANG, S. Physical Model Test and Heat Transfer Analysis on Back-filling Construction of Qinghai-Tibet Transmission Line Tower Foundation. Energies, 2021, 15, 2329.
16. 崔健, 张圣嵘, 李冶平, 等. (2025)电场作用下铅污染冻土的水分迁移规律及影响因素研究. 冰川冻土, 47(2):1-12
17. 刘启, 张泽, 张圣嵘, 恽晴飞, & 付峻松. (2022). 冻融循环作用下砂土粒组变化的分形特征及其与长期强度的相关性分析. 冰川冻土, 44(6), 1820-1832.
18. 翟金榜, 张泽, 张圣嵘, & 杨雪. (2023). 冻融作用下青藏粉土颗粒尺寸与形态变化规律研究. 冰川冻土, 45(5), 1544-1554.
19. 赵芯雨, 张泽, 张圣嵘, 金豆豆, 崔健, & 翟金榜. (2025). 不同含盐量下冻土电渗过程分析及其机理研究. 冰川冻土, 1.
20. 闫庆凯, 张泽, 李向龙, 等. (2025)北极季克西地表热环境时空变化及驱动力分析. 冰川冻土,47(1):57-70.
