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    請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/90229


    題名: 不同滑移速度下高嶺土摩擦係數-剪位移曲線探討:從鐵氟龍汙染與微觀構造切入
    作者: 黃柏崴;Huang, Po-Wei
    貢獻者: 應用地質研究所
    關鍵詞: 摩擦係數-剪位移曲線型態;旋剪試驗;氣乾高嶺土;鐵氟龍汙染;微觀構造;Friction coefficient-shear displacement curves;Rotary shear test;Air-dried kaolinite;Teflon contamination;Microstructure
    日期: 2022-07-21
    上傳時間: 2022-10-04 12:22:20 (UTC+8)
    出版者: 國立中央大學
    摘要: 山崩滑動面的摩擦特性與滑移速度及滑移距離息息相關,過去已有許多學者利用低速至高速旋剪儀來探討及模擬長位移山崩的摩擦行為。前人以氣乾高嶺土為材料於不同滑移速度下進行旋剪試驗,發現在不同滑移速度區間下具有不同的摩擦係數-剪位移曲線型態,然而前人研究較著重在摩擦律的建立,對不同摩擦係數-剪位移曲線的產生及演變並無進行更深入的研究,因此本研究嘗試針對高嶺土於不同滑移速度下的摩擦係數-剪位移曲線型態的發生進行探討。本研究所使用的實驗儀器旋剪儀相較於傳統土壤剪力試驗(直剪、三軸試驗),具有能夠達到長位移剪切的優勢,當試體為粉末時,會以低摩擦特性的鐵氟龍環包覆試體,然而在高速旋剪試驗,鐵氟龍環可能因為高溫變質或受剪磨損,進而汙染試體,會有影響實驗結果的疑慮,故本研究會考慮鐵氟龍汙染對摩擦曲線型態的影響,對受剪高嶺土進行鐵氟龍汙染的含量量化。另外,由於微觀構造一定程度上反映實驗材料之力學特性,因此本研究同時也利用不同剪位移下的微觀構造的觀察,試圖討論微觀構造與摩擦係數-剪位移曲線演變間的關係。結果表明,在滑移速度1m/s下,受剪後試體具有29.9%的汙染,但其汙染含量對於1m/s滑移速度條件下的尖峰摩擦係數與穩態摩擦係數的影響不顯著。另外,根據本研究結果,也認為前人研究中小於0.7m/s滑移速度條件之受剪高嶺土並無污染含量,就算存在汙染含量,其汙染對實驗結果的影響也不明顯。另一方面,微觀構造結果顯示,在低滑移速度10^-6 m/s下,並無明顯剪切構造產生,其變形是均勻的(Uniform);而在滑移速度10^-5-10^-3 m/s,摩擦曲線呈現兩個峰值,本研究認為第二峰值才是對應前人研究微觀構造結果中剪切構造開始出現的剪位移階段。;The friction characteristics of landslide sliding surfaces are closely related to the slip velocity and the displacement. In the past, many scientists have used low to high velocity rotary shear apparatus to discuss and simulate the friction behavior of long-displacement landslides. The predecessors used air-dried kaolinite as the material to conduct rotary shear experiments at different slip velocity, and found that there are different friction coefficient-shear displacement curves in different slip velocity ranges. However, the previous studies focused on the establishment of friction laws, the generation and evolution of different friction coefficient-shear displacement curves have not been further studied. Therefore, this study attempted to conduct a more in-depth discussion on the friction coefficient-shear displacement curves of kaolinite at different slip velocity. Compared with the traditional soil shear test (direct shear test and triaxial shear test), the rotary shear apparatus has the advantage of being able to achieve long-displacement shearing. The Teflon ring which has the low friction characteristic is used to cover the test body. However, in the high velocity rotary shear test, the Teflon ring may contaminate the test body due to decomposition or shear wear, which may affect the experimental results. Therefore, this study will consider the effect of Teflon contamination on friction curve patterns, and the content of Teflon contamination in sheared kaolinite will be quantified. In addition, Since the microstructure reflects the mechanical properties of the experimental materials, this study also attempted to observe the microstructure at different shear displacements. The results show that the sheared kaolinite has 29.9% contamination at a slip velocity of 1 m/s, but the contamination content has no significant effect on the peak friction coefficient and the steady-state friction coefficient. It is also believed that the sheared kaolinite in other slip velocity conditions in previous studies has no pollution content according to the results, and even if it exists, the pollution has no significant effect on the experimental results. On the other hand, there is no obvious Riedel shear under the low slip velocity of 10^-6 m/s, and the deformation is uniform. At the slip velocity of 10^-5-10^-3 m/s, the friction curves present two peaks, and it is believed that the second peak is the shear displacement stage corresponding to the appearance of Riedel shear in the microstructural results of the previous study.
    顯示於類別:[應用地質研究所] 博碩士論文

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