Title page for etd-0703114-080116

URN etd-0703114-080116 Statistics This thesis had been viewed 768 times. Download 19 times.
Author Shao-liang Chan
Author's Email Address cf650013@gmail.com
Department Institute of construction technology
Year 2013 Semester 2
Degree Master Type of Document Master's Thesis
Language zh-TW.Big5 Chinese Page Count 111
Title A semi-empirical analysis of excavation induced deformation of the retaining wall
Keyword
  • factor of safety against basal heave
  • anisotropy
  • isotropy
  • deep excavation
  • clay
  • clay
  • deep excavation
  • isotropy
  • anisotropy
  • factor of safety against basal heave
    • Abstract For deep excavations in soft clay, this study estimates the difference between the factor of safety against basal heave determined from the anisotropic undrained shear strength and that determined from the isotropic undrained shear strength. In general, the isotropic shear strength Su,I is equal to Suc and the strength anisotropy ratio of clay Ar ranges from 0.4 to 0.9. When the strength anisotropy ratio of clay Ar is smaller than 0.75, the isotropic factor of safety against basal heave Fs,I is larger than the anisotropic factor of safety against basal heave Fs,A (i.e., Fs,A /Fs,I < 1) with a maximum difference of about 24%. Comparatively, if the strength anisotropy ratio of clay Ar is larger than 0.75, Fs,I is smaller than Fs,A (i.e., Fs,A /Fs,I > 1) with a maximum difference of about 9%. The ratio of Fs,A /Fs,I determined from Su,I = Sud condition is insensitive to the change of Ar. Over the range of Ar = 0.4 to 0.9, Fs,I is smaller than Fs,A by an average of about 15%.
    This study uses three different approaches to calculate the factor of safety against basal heave and compare with three field excavation cases. Three different methods are the factor of safety against basal heave proposed by Terzaghi (1943), the isotropic factor of safety against basal heave, and the anisotropic factor of safety against basal heave proposed by Liao and Su (2012). However, the factors of safety are plotted on the chart that suggested by Mana & Clough (1981) for the maximum deformation of retaining wall and the factor of safety against basal heave. The result showed that the factor of safety against basal heave all close or below the lower limit value.
    Advisor Committee
  • Shi-fon Su - advisor
  • Chi-ming Lin - co-chair
  • Pio-go Hsieh - co-chair
    		•
    Files indicate access worldwide
    Date of Defense 2014-06-26 Date of Submission 2014-07-07
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