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Surface and sub-surface Schmidt hammer rebound value variation for a granite outcrop

Publication at Faculty of Science |
2011

Abstract

This study presents rock strength variations at granite outcrops and in subsurface vertical profiles in the Jizerské hory Mountains, Czech Republic. Schmidt hammer rebound values in subsurface profiles change gradually from the bedrock surface downward.

An exponential relation has been observed between the R-values and depth in rock outcrops to a depth of around 4.5 m. The exponential nature of the curve indicates that rock hardness increases more rapidly with depth in the uppermost one-metre section of the rock profile.

A detailed study of rebound values obtained from both intact and polished rock exposures reveal effects of surface grinding on results of the Schmidt hammer method. The range of data collected increases after grinding, allowing more precise discrimination of rock surfaces in respect of age and weathering.

The Schmidt hammer method may be effectively used as a relative-age dating tool for rock surfaces that originated during the Late Pleistocene. We conclude that this time limitation can be significantly mitigated by the surface grinding before measurement.