Geoengineering geology
A K Parkin, C M Haberfield and A Bouazza
3 points * 5 lectures, 31 hours design class/practicals, 8 hours of site visit * Second semester * Clayton * Prerequisite: CIV2270 or CIV2271
Objectives To gain knowledge of the geological origins of soil and rock; basic mineral, soil and rock types and alteration and weathering processes; of geological mapping and site investigation and the influence of subsurface structures on engineering works; basic geoengineering models used to predict the behaviour of tunnels and excavations in rock and soil. To be able to apply these models in the practice of geotechnical engineering design and to improve written and oral communication skills.
Synopsis Topics covered include geological processes (weathering and alteration), geological time scale, folding and faulting, geological map interpretation, mineral types and influence on engineering properties, identification of soil and rock types and their origins and behaviour, site investigation techniques, geological history, stereographic projection and kinematic analysis of slopes, tunnelling considerations, engineering uses of rock and soil. Problem-based subject; students work in groups of three to solve practical geotechnical engineering problems.
Assessment Design assignment: 75% * Examination (1.5 hours): 25% * Students must pass both assignment and examination components.
Prescribed texts
Waltham A C Foundations of engineering geology Blackie, 1994
Recommended texts
Schleiger N Roadside geology, Melbourne to Ballarat Geological Society of Australia
Peck W and others Engineering geology of Melbourne Balkema, 1992
Brady B and Brown E T Rock mechanics for underground mining Allen and Unwin, 1993
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