不飽和邊坡入滲之數值模擬

Hsiang-Ju Chen; 陳香如

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/42950

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳榮河(Rong-Her Chen)
dc.contributor.author	Hsiang-Ju Chen	en
dc.contributor.author	陳香如	zh_TW
dc.date.accessioned	2021-06-15T01:30:06Z	-
dc.date.available	2014-07-22
dc.date.copyright	2009-07-22
dc.date.issued	2009
dc.date.submitted	2009-07-21
dc.identifier.citation	1. 王瀚衛(2003)，降雨及入滲對邊坡穩定之效應，碩士論文，國立中興大學水土保持研究所。 2. 古家瑋(2008)，顆粒型土坡模型之滑動與入滲破壞，碩士論文，國立台灣大學土木工程研究所。 3. 陳宏宇、游繁結、黃定國、洪如江、陳榮河、陳文山(1998)，台北市內湖區西湖營區地質災害調查報告書，國立台灣大學地質系 4. 陳怡儂(2007)，利用模型試驗探討顆粒性土壤邊坡滑動之行為，碩士論文，國立台灣大學土木工程研究所。 5. 陳漢平(2003)，降與入滲引致邊坡破壞機制之探討—以土石流源頭為對象，碩士論文，國立台灣大學土木工程研究所。 6. 陳榮河、林美聆、林國峰(1999)，山坡地土壤力學性質在水土保持工程上之一般應用研究(七)，台灣省政府農林廳水土保持局。 7. 蔡孟棻(2005)，以土壤水份特性曲線評估不飽和土壤邊坡穩定性，碩士論文，國立台灣科技大學營建工程系。 8. 藍少村(2008)，降雨導致淺層邊坡破壞之模型試驗與分析，碩士論文，國立成功大學土木工程研究所。 9. Hibbitt, Karlsson & Sorensen, Inc., 2005. ABAQUS Analysis User’s Manual. V6.5. 10. Hibbitt, Karlsson & Sorensen, Inc., 2005. ABAQUS CAE User’s Manual. V6.5. 11. Hibbitt, Karlsson & Sorensen, Inc., 2005. ABAQUS Theory Manual. V6.5. 12. Bao, C. G., Gong, B. W., Zhan, L. T., 1998. Keynote lecture: Properties of Unsaturated Soils and Slope Stability for Expansive Soils. Proceedings of the 2nd International Conference on Unsaturated Soils, Beijing, China. 2, 71-98. 13. Bishop, A. W., Blight, G. E., 1963. Some aspects of effective stress in saturated and unsaturated soils. Géotechnique 13(3), 177-197. 14. Brand, E.W., 1981. Some thoughts on rain-induced slope failure. Proceedings of 10th International Conference on Soil Mechanics and Foundation Engineering, Stockholm, Sweden. 3, 373-376. 15. Chen, H., Chen, R. H., Yu, F. C., Chen, W.S., Hung, J.J., 2004. The inspection of triggering mechanism for a hazardous mudflow in an urbanized territory. Environmental Geology 45(7), 899-906. 16. Chen, R. H., Chen, H. P., Chen, K. S., & Zhung, H. B., 2008. Simulation of a slope failure induced by rainfall infiltration. Environmental Geology, DOI: 10.1007/s00254-008-1574-8. (Accepted: 23 September 2008) 17. Cho, S. E., Lee, S. R., 2001. Instability of unsaturated soil slopes due to infiltration. Computers and Geotechnics 28(3), 185-208. 18. Collins, B. D., Znidarcic, D., 2004. Stability analyses of rainfall induced landslides. Journal of Geotechnical and Geoenvironmental Engineering 130(4), 362-372. 19. Cornell University, 1990. Manual on estimating soil properties for foundation design. Electric Power Research Institude. 20. Fredlund, D. G., Morgenstern, N. R., 1977. Stress state variables for unsaturated soils. Journal of Geotechnical Engineering 103(5), 447-466. 21. Fredlund, D. G., Morgenstern, N. R., Widger, R. A., 1978. The shear strength of unsaturated soil. Canadian Geotechnical Journal 15(3), 313-321. 22. Fredlund, D. G., Rahardjo, H., 1993. Soil mechanics for unsaturated soils. Wiley, New York. 23. Freeze, R. A., Cherry, J. A., 1979. Groundwater. Prentice-Hall, New Jersey. 24. Ho, D. Y. F., Fredlund, D. G., 1982. Increase in strength due to suction for two Hong-Kong soils, Proceeding of ASCE Speciality Conference on Engineering and Construction in Tropical and Residual Soils, Hawaii, U.S. 263-296. 25. Moriwacki, H., Inokuchi, T., Hattanji, T., Sassa, K., Ochiai, H., Wang, G., 2004. Failure processes in a full-scale landslide experiment using a rainfall simulator. Landslides 1(4), 277-288. 26. Rahardjo, H., Ong, T. H., Rezaur, R. B., Leong, E. C., 2007. Factors controlling instability of homogeneous soil slopes under rainfall. Journal of Geotechnical and Geoenvironmental Engineering 133(12), 1532-1543. 27. Tarantino, A., Bosco, G., 2000. Role of soil suction in understanding the triggering mechanisms of flow slides associated with rainfall. In: Wieczorek GF, Naeser ND (eds.) Debris-flow hazards mitigation: mechanics, prediction, and assessment, 81-88. 28. Vanapalli, S. K., Fredlund , D. G., Pufahl, D. E., Clifton, A. W., 1996. Model for prediction of shear strength with respect to soil suction. Canadian Geotechnical Journal 33(3), 379-392. 29. van Genuchten, M. T., 1980. A closed-form equation for predicting the hydraulic conductivity of unsaturated soils. Soil Science Society of America Journal 44, 892-898. 30. Yang, H., Rahardjo, H., Leong, E.C., and Frelund, D.G., 2004. A study of infiltration on three sand capillary barriers. Canadian Geotechnical Journal 41(4), 629-643.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/42950	-
dc.description.abstract	本研究利用數值分析結合室內實驗成果，對不飽和邊坡因入滲破壞之機制作更定量的了解。研究方法係以有限元素軟體ABAQUS模擬不飽和邊坡入滲情形，並以兩組室內砂箱試驗作為模擬對象；其中之一為均質邊坡，另一邊坡為具有傾角10°的岩層面。模擬方式係假設模型邊坡於入滲前已有初始飽和度，接著以2mm水壓於坡頂平台進行入滲。數值模型於左右邊界設置輥接，下邊界設置鉸接；在上方平台處給予水壓值，並於坡面與坡趾堆積區設置排水邊界。　　由程式模擬結果，可觀察到靠近上方平台的水流方向為垂直向下，而上邊坡附近水流方向約與坡面平行，且於下邊坡位置呈現水流由邊坡內部往外流出的趨勢；坡趾處的水流甚至有向上湧的情形。由觀察孔隙壓力隨入滲時間變化的情形，發現於均質邊坡中，於上下坡交界處與靠近坡趾位置首先出現初始降伏的情形，此時孔隙壓力突然增加，所對應之主應力值亦大幅降低，顯示土壤有效應力下降，使得邊坡穩定性降低；在有岩層情況中，亦出現孔隙壓力值突然增加之情形，惟先出現降伏的區域為上下坡交界處。另由塑性區之分佈與砂箱試驗結果比較，模型邊坡出現局部破壞的位置與數值模型開始發展成降伏情況之位置相符。	zh_TW
dc.description.abstract	Numerical analysis was employed and combined with laboratory results to understand the mechanism of the infiltration process in partially saturated slopes. The finite element analysis software, ABAQUS, was used in this study to simulate the process of infiltration into unsaturated slopes. Two infiltration tests performed in sandbox were simulated ; one slope was homogeneous and the other had bedding planes dipping at 10° with the horizontal. Rollers were set up at the left and right boundaries of the numerical model and the bottom boundary was hinged. Furthermore, water pressure form overland flow was applied on the crest of the slope. The drainage boundaries were the slope surface and the deposition area. The results of numerical analysis show that the water infiltrates vertically downward at the crest and flows parallel to the slope face in the upper part of the slope, but it flows outward from the slope in the lower part. Moreover, in the homogeneous slope, the initial yielding point occurred at the intersection of upper and lower slope faces and at the toe of the slope. Consequently, the principal stresses and the effective stresses decreased at the same time. In the intersection slope with bedding planes, the initial yielding point occurred only at the upper and lower slope faces. In addition, the development of plastic zones is accordance with the experimental results.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T01:30:06Z (GMT). No. of bitstreams: 1 ntu-98-R96521105-1.pdf: 5812974 bytes, checksum: 039c6bc850ae5195f2a29379d475a7f4 (MD5) Previous issue date: 2009	en
dc.description.tableofcontents	致謝 I 摘要 II Abstract III 目錄 IV 圖目錄 VII 表目錄 XI 符號說明 XII 第一章　緒論 1 1.1 動機與目的 1 1.2 研究方法與內容 1 第二章　文獻回顧 3 2.1不飽和邊坡之穩定性 3 2.2 不飽和土壤特性及剪力強度理論 3 2.2.1 不飽和土壤的組成 3 2.2.2 不飽和土壤之含水特性 4 2.2.3 不飽和土壤之滲透係數 6 2.2.4 不飽和土壤剪力強度理論 6 2.3 安全穩定分析 7 第三章　研究案例與數值模型介紹 11 3.1 雞南山現地案例介紹 11 3.1.1 現地觀察 11 3.1.2 地質情況 12 3.1.3 地形形態 12 3.1.4 基本物理性質 12 3.2 室內砂箱入滲試驗 12 3.2.1 砂箱試驗材料基本性質 12 3.2.2 均質坡情況入滲試驗 13 3.2.3 有岩層情況入滲試驗 13 3.3 數值分析模式 14 3.3.1 有限元素法之輸入 14 3.3.2 材料組成模式簡介 14 3.4 相關不飽和理論 17 3.5 簡單模型之驗證 18 3.6 建立砂箱試驗之數值模型 19 第四章　砂箱試驗與現地境況之數值模擬結果 21 4.1 砂箱試驗之數值模擬結果 21 4.2 現地境況模擬 25 4.2.1 現地數值模型建立 25 4.2.2 現地境況模擬結果 27 4.3 分析結果討論 29 第五章　影響因子探討 33 5.1 滲透係數 33 5.2 土壤水分特性曲線 34 5.3 土壤凝聚力與摩擦角 34 5.4 坡度 35 5.5 影響因子結果討論 38 第六章　結論與建議 41 6.1 結論 41 6.2 建議 43 參考文獻 45
dc.language.iso	zh-TW
dc.subject	數值分析	zh_TW
dc.subject	不飽和土壤	zh_TW
dc.subject	邊坡	zh_TW
dc.subject	入滲	zh_TW
dc.subject	穩定性	zh_TW
dc.subject	unsaturated soils	en
dc.subject	numerical analysis	en
dc.subject	stability	en
dc.subject	infiltration	en
dc.subject	slope	en
dc.title	不飽和邊坡入滲之數值模擬	zh_TW
dc.title	A Numerical Model of Infiltration Process on Partially Saturated Slopes.	en
dc.type	Thesis
dc.date.schoolyear	97-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林宏達(Hung-Da Lin),范正成(Jen-Chen Fan)
dc.subject.keyword	不飽和土壤,邊坡,入滲,穩定性,數值分析,	zh_TW
dc.subject.keyword	unsaturated soils,slope,infiltration,stability,numerical analysis,	en
dc.relation.page	96
dc.rights.note	有償授權
dc.date.accepted	2009-07-21
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	土木工程學研究所	zh_TW
顯示於系所單位：	土木工程學系

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