Open AccessFrictional sliding in layered rock model: Preliminary experiments. Yucca Mountain Site Characterization Project
Author(s) -
K.E. Perry,
B.J. Buescher,
Danielle E. Anderson,
J.S. Epstein
Publication year - 1995
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/108186
Subject(s) - rock mass classification , yucca , geotechnical engineering , slip (aerodynamics) , geology , radioactive waste , characterization (materials science) , interferometry , materials science , engineering , physics , aerospace engineering , astronomy , botany , nanotechnology , biology , waste management
Understanding the mechanical behavior of jointed-rock masses is of critical importance to designing and predicting the performance of a potential nuclear waste repositiry. To this end we have studied the frictional sliding between simulated rock joints using phase shifting moire interferometry. Preliminary calibration models were made from stacks of Lexan plates that were sand-blasted to provide a uniform frictional interface. Load was applied monotonically and phase shifted moire fringe patterns were recorded at three different load states. Plots of slip along the interfaces for the model are presented to demonstrate the ability of the photomechanics technique to provide precise measurements of in-plane displacement, and ultimately the slip between the plates
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