中國科學院水利部成都山地災害與環境研究所副研究員宋東日,碩士生導師
個人簡介:
男,1987年生,博士,副研究員。
招生專業:
岩土工程、建築與土木工程
歡迎土木工程(岩土、水利),地質工程,水文地質,工程力學及具有良好數學、物理背景的相關專業學生加入!
學習與工作經歷:
2017.05-至今,中國科學院水利部成都山地災害與環境研究所,副研究員
2013.01-2017.03,香港科技大學,博士,土木工程(岩土),導師:Charles W.W. NG (吳宏偉)
2010.09-2013.06,中國科學院武漢岩土所(中國科學院大學),碩士,防災減災工程及防護工程,導師:任偉中
2006.09-2010.06,中國礦業大學,學士,地質工程
研究方向及科研工作:
滑坡、土石流、碎屑流的力學機理
土石流(碎屑流)中固-液耦合作用對巨觀運動行為的影響
土石流(碎屑流)與防護結構相互作用機理
新型土石流防護結構
地質災害的土工離心機模擬
社會任職、榮譽稱號:
Ringo Yu Prize for Best PhD Thesis in Geotechnical Studies 2017 (HKIE)
香港研究資助局香港博士研究生獎學金(HKPF)
代表性論文論著:
1.Song, D., Choi, C. E., Zhou, G. G. D., Kwan, J. S. H., & Sze, H. Y.(2018).Impulse Load Characteristics of Bouldery Debris Flow Impact.Géotechnique Letters. 8 (2), doi.org/10.1680/jgele.17.00159.
2.Ng, C. W. W., Choi, C. E., Koo, R. C. H., Goodwin, G. R.,Song, D., & Kwan, J. S. H. (2018). Dry Granular Flow Interaction with Dual-barrier Systems.Géotechnique. 68 (5), 386-399.
3.Ng, C. W. W., Su, Y., Choi, C. E.,Song, D., Lam, C., Kwan, J. S. H., Chen, R. (2018). Comparison of Cushioning Mechanisms between Cellular Glass and Gabions Subjected to Successive Boulder Impacts.Journal of Geotechnical and Geoenvironmental Engineering (ASCE). (Accepted).
4.Zhou, G. G. D.,Song, D.*, Choi, C. E., Pasuto, A., Sun, Q. C., & Dai, D. F. (2018). Surge Impact Behaviour of Granular Flows: Effects of Water Content.Landslides. 15(4): 695–709.
5.Song, D.,Choi, C. E., Ng, C. W. W.,&Zhou, G. G. D.(2017).GeophysicalFlows Impacting a Flexible Barrier: Effects of Solid-fluid Interaction.Landslides. 15(1): 99-110.
6.Song, D.,Ng, C. W. W.,Choi, C. E.,Zhou, G. G. D.,Kwan, J. S. H.&Koo, R. C. H.(2017). Influence of debris flow solid fraction on rigid barrier impact.Canadian Geotechnical Journal.54(10): 1421-1434.
7.Ng, C. W. W.,Song, D.*, Choi, C. E., Kwan, J. S. H., Koo, R. C. H., & Pun, W. K. (2017). Impact mechanisms of granular and viscous flows on rigid and flexible barriers.Canadian Geotechnical Journal. 54(2), 188-206.
8.Ng, C. W. W.,Song, D.*, Choi, C. E., Koo, R. C. H., & Kwan, J. S. H. (2016). A novel flexible barrier for landslide impact in centrifuge.Géotechnique Letters, 6(3), 221-225.
9.Ng, C. W. W., Choi, C. E.,Song, D., Kwan, J. S. H., Koo, R. C. H., Shiu, H. Y. K., & Ho, K. K. S. (2015). Physical modeling of baffles influence on landslide debris mobility.Landslides, 12(1), 1-18.
10.Choi, C. E., Au-Yeung, S. C. H., Ng, C. W. W., &Song, D. (2015). Flume investigation of landslide granular debris and water runup mechanisms.Géotechnique Letters, 5(1), 28-32.
11.Choi, C. E., Ng, C. W. W.,Song, D., Kwan, S. J. H., Shiu, H. Y. K., Ho, K. K. S., & Koo, R. C. H. (2014). Flume investigation of landslide debris–resisting baffles.Canadian Geotechnical Journal, 51(5), 540-553.
12.宋東日,任偉中,沈波,徐志忠,周英博,張思淵. (2013).牽引式滑坡的破壞機制及其加固措施探討—以某高速公路牽引式滑坡為例.岩土力學. 34(12): 3587-3593.
13.宋東日,任偉中,黃誠,王安禮,張軍. (2013).節理分量式剪下本構模型及岩質邊坡雙安全係數研究.岩土力學. 34(8): 2143-2150.