Canadian Geotechnical Journal, March 2017 Table of Contents
The March 2017 issue of the Canadian Geotechnical Journal, Volume 54, No. 3 (as are all past issues of the CGJ) is available online at no extra cost to all CGS members. To access the journal (current or past issues), just log into the Member Section of the CGS website, then select the Canadian Geotechnical Journal link from the left-hand navigation column.
Non-CGS members can view the CGJ abstracts and citations at nrcresearchpress.com/toc/cgj/54/3.
Articles in this issue include:
- Influences of root-induced soil suction and root geometry on slope stability: a centrifuge study
- Subgrade resilient modulus prediction using light-weight deflectometer data
- Work input analysis for soils with double porosity and application to the hydromechanical modeling of unsaturated expansive clays
- Undrained stiffness anisotropy from hollow cylinder experiments on four Eocene-to-Jurassic UK stiff clays
- A new simplified method and its verification for calculation of consolidation settlement of a clayey soil with creep
- Hydromechanical behavior of an embankment during inundation
- Development of a viscoelastoplastic model for a bedded argillaceous rock from laboratory triaxial tests
- Runout analysis and mobility observations for large open pit slope failures
- Framework to assess Newmark-type simplified methods for evaluation of earthquake-induced deformation of embankments
- Numerical study of the effect of soil–atmosphere interaction on the stability and serviceability of cut slopes in London clay
- An analytical approach to assess quality control sample sizes of cement-based “solidification/stabilization”
- Thermal properties of oil sands fluid fine tailings: laboratory and in situ testing methods
- Accuracy of determining pre-consolidation pressure from laboratory tests
- Discussion of “New transient method for determining soil hydraulic conductivity function”
- Reply to the discussion by Liu et al. on “New transient method for determining soil hydraulic conductivity function”