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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 林美聆 | |
dc.contributor.author | Yung-Sheng Chen | en |
dc.contributor.author | 陳永昇 | zh_TW |
dc.date.accessioned | 2021-06-15T04:02:29Z | - |
dc.date.available | 2012-03-11 | |
dc.date.copyright | 2010-03-11 | |
dc.date.issued | 2010 | |
dc.date.submitted | 2010-02-12 | |
dc.identifier.citation | [1] Carter, M. and Bentley, S. P.: The geometry of slip surfaces beneath landslides: prediction: prediction from surface measurements, Can. Geotech. , 22, 234-238, 1985.
[2] Cruden, D. M. : Discussion of Carter, M. and Bentley, S. P., 1985, The geometry of slip surfaces beneath landslides: prediction from surface measurements, Can. Geotech., 23,94,1986. [3] Cruden, D. M. and Varnes, D. J.: Landslide Type and Processes, in: Landslide: Investigation and Mitigation, Transportation Research Board, edited by: Turner, A. K. and Schuster, R. L., special Report 247, National Research Council, National Academy Press, Washington D. C., 36-75,1996. [4] Dyvik, R. and Madshus, C. , (1985). “Lab Measurements of Gmax Using Bender Elements ,” Advance in the Engineering , Vol.161, pp.117-137 . [5] Fang, Y.S. , Chen, T.J. ,Holtz, R.D. and Lee, W.F.,(2004).”Reduction of Boundary Friction in Model Tests,” Geotechnical of Journal , Vol.27 , NO.1 . [6] Gibson, A.,(1996).” Physical Scale Modeling of Geotechnical Structures at One-G , “Ph. D. Diss ertation, California Inst. Of Tech, Pasdena. [7] Iai,S.,(1989). ”Similitude for shaking Table Tests on Soil-Structure-Fluid Model in 1g Gravitational Field ,” Soils and Foundations,JSSMFE, Vol. 29 , No.1 , pp.105-118. [8] Jibson, R.W.,(1985).”Landslides Caused By the 1811-12New Madrid Earthquakes. ” Ph.D. Thesis , California , Stanford University. [9] Kagawa, T. (1978). “On the Similitude in Model Vibration Tests of Earth Structures,” Proceedings of Japan Society of Civil Engineering, No.275, pp.69-77. (in Japanese). [10] Kokusho, T., Ishizawa, T. (2006).” Energy Approach for Earthquake Induces Slope Failure Evaluation ,” Soil Dynamics and Earthquake Engineering , Vol. 26 , pp. 221-230 . [11] Meymand, P.J., (1998). “Shaking Table Scale Model Tests of Nonlinear Soil-Pile-Superstructure Interaction in Soft Clay, Ph.D. dissertation, U.C. Berkeley. [12] Newmark, N.M., (1965). “Effects of Earthquake on Dams and Embankments,” Géotechnique, Vol.15, No.2, pp.139-160. [13] Roscoe,K.,(1968).”Soils and odel Tests,” J. of Strain Analysis, Vol. 3 No. 1 pp. 57-64 . [14] Scott, R., (1989). “Centrifuge and Modeling Technology: A Survey,” Rev. Franc. Geotech, No.48, pp.15-34. [15] Terzaghi, K., (1950). ‘‘Mechanisms of Landslides,’’ The Geological Survey of America, Engineering Geology (Berkley). [16] Uwabe, T., Sosuke, K., and Norihiro, H., (1986). “Shaking Table Tests and Circular Arc Analysis for Large Models of Embankments on Saturated Sand Layers,” Soils and Foundation, Vol.26, No.4, pp.1-15. [17] Varnes, D.J., (1978). “Slope Movement Types and Processes,” in Landslides: Analysis and Control, Transportation Research Board Special Report 176, National Academy of Sciences, Washington, D. C., pp.12-33. [18] Wartman, J., Riemer, M.F., Bray, J.D. and Seed, R.B., (2000). “Newmark analyses of a shaking table slope stability experiment,” Geotechnical earthquake engineering and soil dynamics Ⅲ pp.778-789. [19] Wartman, J., Seed, R.B. and Bray, J.D., (2005). “Shaking Table Modeling of Seismically Induced Deformations in Slopes,” Journal of Geotechnical and Geoenvironmental Engineering, Vol.131, No.5, pp.610-622. [20] FLAC V4.0 user manual(2000). [21] 王元度(2005),小型振動台之模型邊坡動態試驗研究,國立台灣大學土木工程學研究所碩士論文。 [22] 王國隆(2006),區域性邊坡受震反應分析-以集集大地震為例,國立台灣大學土木工程學研究所博士論文。 [23] 行政院農委會,「水土保持手冊」,中華水土保持學會(1992)。 [24] 吳偉特,土壤動力特性於大地工程之應用,地工技術雜誌,第二期72年4月,pp.82~96。 [25] 呂建億(2000),荷重頻率比對不同飽和程度之含細料砂土動態性質研究,國立台灣大學土木工程學研究所碩士論文。 [26] 李怡穎(2001),員林地區土壤動態特性之探討,國立台灣大學土木工程學研究所碩士論文。 [27] 邱建銘(2001),以剪力波速評估員林地區液化及其地層動態反應研究,國立台灣大學土木工程學研究所碩士論文。 [28] 胡耀華(1996),剪力波元件試驗之初步研究,國立台灣大學土木工程學研究所學士論文。 [29] 鄭巽澤(2006),小型振動台模擬邊坡受震行為之研究,國立台灣大學土木工程學研究所碩士論文。 [30] 林京翰(2007),利用小型振動台模擬邊坡受震情形之研究,國立台灣大學土木工程學研究所碩士論文。 | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/45046 | - |
dc.description.abstract | 921集集大地震,不但造成台灣人民傷亡、房屋倒塌、更引發許多邊坡產生滑動破壞,為更深入了解邊坡受震時破壞發生機制,林美聆與王國隆自2003年起於國家地震中心進行了多組大型邊坡受震模擬試驗,以了解邊坡受震中之動態行為模式。為能於大型試驗進行前預先模擬,因此王國隆學長於2004年開發小型振動台。在本研究中針對其步進馬達輸出功率加以提昇,以使更適用於探討邊坡滑移機制。
本研究期望藉由小型振動台,有效地模擬出邊坡滑動之行為。在試驗過程中以改變邊坡特定因子坡高與坡角準備試體進行試驗。另外,本研究以影像分析方法運用PIV分析坡面位移場關係,了解整體坡面在產生滑動破壞時,坡面位移場分佈變化情況。並且利用雷射掃瞄方式,對於坡面在試驗前後進行掃瞄動作,根據掃瞄所得試驗前後之坡面平均高程曲線來進行坡面變化定量分析。並且量測在坡面上的標點位移向量,利用圖解的方式推測邊坡滑動面的位置。 試驗發現邊坡破壞會從坡頂開始破壞,破壞模式是以塊體滑動的方式進行破壞,從影像分析可以支持塊體滑動破壞的論點。從圖解法可繪出滑動面的位置,發現邊坡破壞試以淺層滑動為主,最後利用數值軟體FLAC,輸入試驗時之加速度資料比對上述滑動面位置,結果相當接近。 | zh_TW |
dc.description.abstract | The Chi-Chi earthquake struck Taiwan in 1999 which induced numerous landslides. Using pseudo static and sliding block analysis for seismic slope analysis usually involve simplified assumptions. In order to understand the behavior of slope subjected to earthquake, Wang (2003) used large-scale shaking table model test in NCREE to observe the dynamic behavior of slope. A small-scale shaking table was developed in laboratory in 2004 to facilitate the laboratory slope model test with the advantage of easy operation and specimen preparation.
The objective of this research is to simulate landslide behavior using small-scale shaking table. The control factors including slope height and slope angle have been changed during tests. The images of model slope behavior were recorded during tests and image analysis where performed using PIV to tract the displacement vectors when landslide initiated. The infrared rays were used to scan the surface of specimen, which measured the differences in geometry of specimen before and after test. The deformation of slope was measured based on the average of three profiles, and with motion vectors along the slope. The slip surfaces can be constructed base on geometry method. It is found that displacement will concentrate at the top of slop when failure occurs, and the sliding behavior is similar to block sliding. Result of PIV analyze also support the sliding-block behavior of the model slope. The slip surfaces constructed using geometry method is shallow, and appears to be consistent with FLAC, The slip surfaces of model test and numerical analysis. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T04:02:29Z (GMT). No. of bitstreams: 1 ntu-99-R96521116-1.pdf: 7566966 bytes, checksum: f9e0c76d106fd77a0cba7bb0cbf9906e (MD5) Previous issue date: 2010 | en |
dc.description.tableofcontents | 摘要 I
Abstract II 目錄 III 圖目錄 VII 表目錄 XIII 第一章 緒論 1 1-1 研究背景 1 1-2 研究動機與目的 1 1-3研究方法與內容 2 第二章 文獻回顧 5 2-1受震邊坡破壞之因素與型式 5 2-1-1地震引致邊坡破壞之因素 5 2-1-2地震引致邊坡破壞之型式 6 2-2動態邊坡破壞分析方法簡介 8 2-2-1擬靜態法 9 2-2-2滑動體塊法 10 2-2-3動態反應分析 12 2-3振動台模型試驗 13 2-3-1 Kokusho(2004)之試驗 13 2-3-2 Wartman(2000)之試驗 14 2-3-3 Wartman(2005)之試驗 15 2-4幾何方法推測滑動面 16 2-5 模型相似率 17 第三章 試驗材料之基本性質與動態試驗 33 3-1 試驗目的與規劃 33 3-2 基本性質試驗 34 3-3 剪力波元件試驗 34 3-3-1 剪力波元件簡介 35 3-3-2 剪力波元件試驗設備 35 3-3-3 剪力波元件試驗步驟 37 3-3-4 剪力波元件試驗結果 39 3-4 共振柱試驗 39 3-4-1 共振柱試驗原理 39 3-4-2 共振柱試驗設備 41 3-4-3 試驗步驟 42 3-4-4 試驗結果計算 44 3-5 動力三軸試驗 46 3-5-1 動力三軸儀器設備 46 3-5-2 動力三軸試驗步驟 47 3-5-3 動力三軸試驗結果 48 3-6 試驗材料之動態性質曲線 49 3-6-1 動態剪力模數 49 3-6-2 阻尼比 50 第四章 小型振動台簡介 67 4-1 小型振動台試驗設備簡介 67 4-1-1 小型振動台作用原理 67 4-1-2 小型振動台試驗設備 68 4-2 小型振動台測試 71 4-2-1 空箱測試 71 4-2-2 系統勁度與阻尼 71 4-2-3 模型邊界效應 72 4-2-4 振動放大效應 73 第五章 邊坡模型振動試驗 87 5-1 試驗規畫 87 5-2 試驗製作方式 87 5-3 試驗步驟 88 5-4 相似率之要求 90 5-5量測與配置 91 5-6 邊坡模型試驗結果 91 5-6-1 坡面雷射掃描 92 5-6-2 坡面位移量測 92 5-6-3 邊坡滑動位移分析 93 5-6-4 加速度歷時 95 5-6-5 標點位移推測滑動面 96 第六章 數值模型分析 115 6-1 數值模型建立 115 6-1-1 數值軟體簡介 115 6-1-2 FLAC建模及參數設定 116 6-1-3 FLAC動態分析參數設定 118 6-1-4 計算流程 119 6-2 FLAC模擬振動台試驗結果 120 6-3 FLAC模擬推測滑動面位置 122 第七章 結論與建議 137 7-1 結論 137 7-2 建議 138 參考文獻 140 附錄A 模型邊坡試驗尺寸圖 143 附錄B 雷射掃描邊坡破壞前後情形 145 附錄C 標點位移推測滑動面 148 | |
dc.language.iso | zh-TW | |
dc.title | 小型振動台模擬邊坡滑動情形之研究 | zh_TW |
dc.title | Study on sliding behavior of slope using small scale shaking table | en |
dc.type | Thesis | |
dc.date.schoolyear | 98-1 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 李崇正,陳天健 | |
dc.subject.keyword | 振動台, | zh_TW |
dc.subject.keyword | shaking table, | en |
dc.relation.page | 150 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2010-02-14 | |
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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