TY - JOUR
T1 - The Shape Preferred Orientation (SPO) Analysis in Estimation of Fault Activity Study
AU - Sim, Ho
AU - Song, Yungoo
AU - Park, Changyun
AU - Seo, Jaewon
N1 - Publisher Copyright:
© 2023 Korean Society of Economic and Environmental Geology. All rights reserved.
PY - 2023/6/30
Y1 - 2023/6/30
N2 - The Shape Preferred Orientation (SPO) method has been used to analyze the orientation of fault motion, which is utilized as basic data for fault kinematics studies. The rigid grains, which as quartz, feldspar, and rock fragments, in the fault gouge are arranged in the P-shear direction through rigid body rotation by a given shear stress. Using this characteristic, the fault motion can be estimated from the SPO inversely. Recently, a method for securing precision and reliability by measuring 3D-SPO using X-ray CT images and examining the shape of a large number of particles in a short time has been developed. As a result, the SPO method analyzes the orientation of thousands to tens of thousands of particles at high speed, suggests the direction of fault motion, and provides easy accessibility and reliable data. In addition, the shape information and orientation distribution data of particles, which are by-products obtained in the SPO analysis process, are expected to be used as basic data for conducting various studies such as the local deformation of fault rocks and the fault generation mechanism.
AB - The Shape Preferred Orientation (SPO) method has been used to analyze the orientation of fault motion, which is utilized as basic data for fault kinematics studies. The rigid grains, which as quartz, feldspar, and rock fragments, in the fault gouge are arranged in the P-shear direction through rigid body rotation by a given shear stress. Using this characteristic, the fault motion can be estimated from the SPO inversely. Recently, a method for securing precision and reliability by measuring 3D-SPO using X-ray CT images and examining the shape of a large number of particles in a short time has been developed. As a result, the SPO method analyzes the orientation of thousands to tens of thousands of particles at high speed, suggests the direction of fault motion, and provides easy accessibility and reliable data. In addition, the shape information and orientation distribution data of particles, which are by-products obtained in the SPO analysis process, are expected to be used as basic data for conducting various studies such as the local deformation of fault rocks and the fault generation mechanism.
KW - estimation of fault activation
KW - fault gouge
KW - rigid body rotation
KW - Shape Preferred Orientation (SPO)
KW - X-ray CT
UR - http://www.scopus.com/inward/record.url?scp=85167680864&partnerID=8YFLogxK
U2 - 10.9719/EEG.2023.56.3.293
DO - 10.9719/EEG.2023.56.3.293
M3 - Article
AN - SCOPUS:85167680864
SN - 1225-7281
VL - 56
SP - 293
EP - 300
JO - Economic and Environmental Geology
JF - Economic and Environmental Geology
IS - 3
ER -