An experimental system we developed combines triaxial rock deformation and mass spectrometry to measure noble gas flow before, during, and after rock fracture. Gas flow through a granite and basalt in its unfractured condition allows estimation of “native” permeability. Geogenic noble gas is released during triaxial deformation (real time) and is related to volume strain and acoustic emissions. The noble gas release then represents a signal of deformation during its stages of development. After fracture, gas flow through samples is used to estimate fractured rock permeability. Noble gases are contained in most crustal rock at inter and intra granular sites, their release during natural and man-made stress and strain changes represents a signal of deformation in brittle and semi-brittle conditions. The gas composition depends on lithology, geologic history and age of the rock, fluids present, and uranium, thorium and potassium-40 concentrations in the rocks that affect the production of radiogenic noble gases (4He, Ar). Noble gas emission and its relationship to crustal processes have been studied for many years in the geologic community including correlations to tectonic velocities and qualitative estimates of deep permeability from surface measurements, finger prints of nuclear weapon detonation, and as a potential precursory signals to earthquakes attributed to gas release due to pre-seismic stress, dilatancy and/or fracturing of the rock. Helium emission has been shown as a precursor of volcanic activity. We will present empirical results of gas flow through (permeability estimates) and relationships of specimen strain, microfracture density, acoustic emissions, and noble gas release from laboratory triaxial experiments performed upon a granite and young basalt. Sandia National Laboratories is a multi-mission laboratory managed and operated by Sandia Corporation, a wholly owned subsidiary of Lockheed Martin Corporation, for the U.S. Dept. of Energy’s National Nuclear Security Administration under contract DE-AC04-94AL85000. SAND2016-10616 A

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