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| DC 欄位 | 值 | 語言 |
|---|---|---|
| dc.contributor.advisor | 卿建業(Jian-Ye Ching) | |
| dc.contributor.author | Po-En Liao | en |
| dc.contributor.author | 廖伯恩 | zh_TW |
| dc.date.accessioned | 2021-06-13T03:32:01Z | - |
| dc.date.available | 2011-08-04 | |
| dc.date.copyright | 2011-08-04 | |
| dc.date.issued | 2011 | |
| dc.date.submitted | 2011-07-29 | |
| dc.identifier.citation | 1. 方顗忠 (2007),「場鑄樁樁底承載力及壓載詮釋法之評估」,私立中原大學土木工程學系研究所碩士論文。
2. 交通部公路局第三區工程處台22線里嶺大橋橋樑改建工程地質探查報告書。 (2001) 3. 交通部公路總局第三區養護工程處大津橋橋樑改建工程地質探查報告書。 (2004) 4. 交通部公路總局第三區養護工程處台28線橋樑改建工程地質探查報告書。 (2006) 5. 莊伯誼 (2010),「場鑄樁再複層地層軸向承載行為之探討」,國立暨南國際大學土木工程學系研究所碩士論文。 6. 張馨文 (2007),「場鑄樁樁身摩擦力及拉拔詮釋法之評估」,私立中原大學土木工程學系研究所碩士論文。 7. Alsamman, O. M. (1995), “The Use of CPT for Calculating Axial Capacity of Drilled Shafts”, Ph. D. thesis, University of Illinois. 8. Beckwith, G. H. and Bedenkop, D. V. (1973), “An Investigation of The Load Carrying Capacity of Drilled Cast-In-Place Concrete Piles Bearing on Coarse Granular Soils and Cemented Alluvial Fan Deposits”, Arizona highway department, Research Division. 9. Cushing, A. G. (2001), “Small-strain Elastic Deformation of Drilled Shaft Foundations in Axial Uplift and Compression Loading”, M. S. thesis, Cornell University. 10. Diagnostic Engineering Consultants, Ltd. (1997), “Taiwan High Speed Rail Bridge Foundation in Chiayi”, Load Test Report. 11. Douglas, DJ (1981), “Design of Augered Grouted Piles”, Proc., Symp. Grout Injected Piles, Brisbane, 2.1 - 2.21. 12. Everett, JP, Wilson, C & Knight, K (1984), “Load Test on Three Different Pile Types in Durban”, Proc., Symp. Piling on Natal Coast, Inst. Civil Eng., Durban, 43-61. 13. Evers, G., Hass, G., Frossard, A., Bustamante, M., Borel, S., and Skinner, H. (2003), “Comparative Performances of Continuous Flight Auger and Driven Cast in Place Piles in Sands”, Proceedings of the 4th international geotechnical seminar on deep foundations on bored and auger piles, BAP IV, Ghent, Belgium, 137-144. 14. Fenton, G. A. (1999a), “Estimation for Stochastic Soil Models”, Journal of Geotechnical and Geoenvironmental Engineering, Vol. 125, No.6, ASCE, 470-485. 15. Fenton, G. A. (1999b), “Random Field Modeling of CPT Data”, Journal of Geotechnical and Geoenvironmental Engineering, Vol. 125, No.6, ASCE, 486-498. 16. Jaksa, M. B. (1995), “The Influence of Spatial Variability on the Geotechnical Design Properties of a Stiff, Overconsolidated Clay”, Ph. D. thesis, University of Adelaide. 17. Mandelbrot, B. and van Ness, J.W. (1968), “Fractional Brownian Motions, Fractional Noises and Applications”, SIAM review 10 (4), 422-437. 18. Neely, WJ (1995), “Personal Communication to F.H. Kulhawy”, VSL Corp., Raleigh. 19. O’Rourke, TD & Kulhawy , FH (1985), “Observations on Load Tests on Drilled Shafts”, Drilled Piers & Cassions II, ASCE, New York, 113-128. 20. Phoon, K.K. (1995), “Reliability-Based Design of Foundations for Transmission Line Structures”, Ph.D. Dissertation, Cornell University. 21. Phoon, K.K. (2011), “Personal Communication to JY Ching”, Department of Civil Engineering, National University of Singapore. 22. Rollins, K. M., Clayton, R. J., Mikesell, R. C. and Blaise, B. C. (1997), “Drilled Shaft Side Friction in Gravelly Soils”, The International Association of Foundation Drilling, ADSC. 23. Webb, DL & Moore, LW (1984), “Performance of Pressure Grouted Auger Piles in Durban”, Proc., Symp. Piling on Natal Coast, Inst. Civil Eng., Durban, 274-287. 24. Wysockey, M. H. (1999), “Axial Capacity of Drilled Shafts”, Ph. D. thesis, University of Illinois. | |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/32107 | - |
| dc.description.abstract | 土壤是一種複雜的天然材料,它的形成由不同地質、環境以及化學過程所組合而成的,這些天然的沉積形成過程,使土壤在垂直及水平方向上的性質存在空間變異性(inherent variabilities),而本研究要探討土壤水平方向上的空間變異性,所使用的資料類型主要分為三種:(1)基樁載重資料 (2)圓錐貫入試驗(CPT)資料 (3)標準貫入試驗(SPT-N)資料。三種資料會依不同方式處理,將垂直向方向的空間變異性消除,求得垂直向的平均剪力強度,以方便我們探討水平方向上的空間變異性。
前人的研究中,主要會用三種統計模型來描述土壤水平向的空間變異性,分別為Single exponential model、Square exponential model、Fractional Brownian motion model。本研究的目的,先將兩不同地區垂直向平均剪力強度與水平距離之間關係的資料分布情形,將資料依不同類型及水平距離做分類,用最大可能性函數估算法來找出這三種模型的最佳參數與最大可能性函數值,比較三種模型之適用性,找出何種模型相對適合用來描述土壤水平向方向的空間變異性,並利用此模型提供一些案例模擬應用。 | zh_TW |
| dc.description.abstract | Soil is a complicated kind of natural material. It's form basically comes from different kinds of geology, environment, and chemical process. These natural process of deposits made the soil nature exist inherent variabilities, both horizontal and vertical. As we discuss about the horizontal variability of soil in this research, three kinds of data methods listed below are used:(1) Pile load tests data (2) CPT data (3) SPT-N data. These three methods, depending on different processing modes, eliminate the vertical variability, which then receive vertical of average shear strength to help us analysis the horizontal inherent variability.
Three statistical models are put to use to describe the horizontal variability of soil in former research, including used Single exponential model、Square exponential mode and Fractional Brownian motion model. The main purpose for this study is to acquire the distribution between the two different average shear strength in vertical and the horizontal distance, classify the data for different type. Using maximum likelihood estimation to find three model’s parameters and likelihood. Compared with three kind of model applicability find what kind of model relatively suitable to describe the horizontal variability of soil shear strength, and provides some case simulation application using this model. | en |
| dc.description.provenance | Made available in DSpace on 2021-06-13T03:32:01Z (GMT). No. of bitstreams: 1 ntu-100-R98521123-1.pdf: 2114114 bytes, checksum: 355b4e7c5191edee889bf80a95c20b5b (MD5) Previous issue date: 2011 | en |
| dc.description.tableofcontents | 口試委員審定書 I
誌謝 II 摘要 III Abstract IV 符號表 V 目錄 VII 圖目錄 IX 表目錄 XI 第一章 緒論 1 1.1 研究背景 1 1.2 研究目的與方法 1 1.3 本文內容 1 第二章 文獻回顧 3 2.1 土壤空間變異性 3 2.2 探討土壤空間變異性之文獻(尤其是水平空間變異性) 3 2.3 描述土壤空間變異性之模型 4 2.3.1 Single exponential model 4 2.3.2 Square exponential model 5 2.3.3 Fractional Brownian motion model (fBm) 6 2.4 模擬各種模型之函數圖形 8 2.5 軸向壓載詮釋法 8 第三章 資料庫 10 3.1 資料庫概述 10 3.2 資料收集與處理方法 13 3.3 Drilled shafts資料庫 14 3.4 CPT資料庫 16 3.5 SPT資料庫 19 第四章 資料分析 22 4.1 前言 22 4.2 分析資料處理 22 4.3 以最大可能性函數估算法找出各模型之最佳參數 24 4.4 探討各模型之適用性 31 第五章 分析結果與應用 35 5.1 主要結果 35 5.2 比較各種模型之可靠度指數(β) 35 5.3 規範中關於試驗樁的規定 38 5.4 用貝氏分析去預測多元資訊下之剪力強度(τf) 38 5.5 以板樁牆為案例估算各種模型之破壞機率 44 第六章 結論與建議 46 6.1 結論 46 6.2 未來方向與建議 46 參考文獻 47 附錄 A 資料庫 50 | |
| dc.language.iso | zh-TW | |
| dc.title | 土壤剪力強度於水平方向空間變異性之初探 | zh_TW |
| dc.title | Preliminary Study of Horizontal Variability for Soil Shear Strength | en |
| dc.type | Thesis | |
| dc.date.schoolyear | 99-2 | |
| dc.description.degree | 碩士 | |
| dc.contributor.coadvisor | 陳皆儒(Jie-Ru Chen) | |
| dc.contributor.oralexamcommittee | 黃文昭 | |
| dc.subject.keyword | 空間變異性,垂直向的平均剪力強度,Single exponential model,Square exponential model,Fractional Brownian motion model, | zh_TW |
| dc.subject.keyword | Inherent (spatial) variability,vertical of average shear strength,Single exponential model,Square exponential model,Fractional Brownian motion model, | en |
| dc.relation.page | 96 | |
| dc.rights.note | 有償授權 | |
| dc.date.accepted | 2011-07-29 | |
| 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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