Eisenberg, William, Will, Texas, TCU, Texas Christian University, fun, Broman, William C. Eisenberg, Bill, Billy, Houston, Fort Worth
Understanding uniaxial compressive strength changes in different lithologies is important to understand the changes in behavior of rocks under confinement in the subsurface. While laboratory testing often assesses the strength of a particular lithology, there are few studies such as that by Deere and Miller (1966) that compare a large variety of different lithologies and their overall strength. Here, we present a data compilation of strain at failure under uniaxial compression for various lithologies in order to show how widely strain data can vary in a given lithology and between different lithologies. Metadata for the study were obtained through searching existing literature. We show that the lithology strongly controls the amount of strain that a material can accumulate prior to failure and that rocks fall within predictable ranges of strain prior to failing under uniaxial compression.
Geologist, Geoscientist, Carbonates, Log Analysis, Petrophysics, Geophysics, Mapping, Perta, ArcGIS, PowerLog, Risk Management, Reservoir Modeling
Well Log Interpretation, Oil & Gas, Fine Description, Well Arrangement, Geological Mapping, Seismic Interpretation
The most recent research that he participated in is "arrangement of well locations" in Maidston, SK, canada. The purpose of this study is by using the collected data from drilling and well logging to analyze the favorable distribution area of oil & gas.
Geologist, Petrophysicist, Geomechanics, Pore Pressure Prediction, Well Log Analyst, Drilling Parameter Interpretation, Seismic Data Interpretation, Code Development, Texas A&M University
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Department of Earth, Environmental and Planetary Sciences
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