inclinometer-pendulum

Hardware and some results of extensometric and tiltmetric observations in RGS "Beregovo" in Ukrainian Transcarpathians

In the paper the apparatus supply of extensometric and tiltmetric seismoprognostic monitorings` observations in RGS "Beregovo" in Ukrainian Transcarpathians is briefly describes. The quartz extensometer with computerizing micromoving measuring system with contactless capacitive sensor (development of Lviv` specialists of National Academy of Sciences of Ukraine) and the inclinometer – static vertical pendulum with optic-electronic micromoving measuring system (development of Czech specialists) are presented. Some results of observations by these devices are presented and discussed.

Structure, dynamics and seismotectonics of faulting zones (by results of physical modelling and field studies) parth 1: physical modelling

Purpose. The aim of the work is to present and to analyze the results of physical modeling and field studies of processes of formation, evolution and modern geodynamic and seismotectonic activity of subvertical shear zones (SVShZ), in particular of faulting kinematics. Methods. Physical modeling was conducted on the special modeling machine for break dip angle 75, 60 and 45. As a plastic-viscous modeling materials for this were used a special paste which are based on clay. Field researches included geoacoustic emission, PIEMPZ, extenzometric, tiltmetric and seismological methods.

Structure, dynamics and seismotectonics of faulting zones

Purpose. The aim of the work is to present and to analyze the results of physical modeling and field studies of processes of formation, evolution and modern geodynamic and seismotectonic activity of subvertical shear zones (SVShZ), in particular of faulting kinematics. Methods. Physical modeling was conducted on the special modeling machine for break dip angle 75, 60 and 45. As a plastic-viscous modeling materials for this the special pastes were used which are based on clay.