Banca de DEFESA: MARILIA BARBOSA VENÂNCIO
Uma banca de DEFESA de MESTRADO foi cadastrada pelo programa.STUDENT : MARILIA BARBOSA VENÂNCIO
DATE: 28/02/2020
TIME: 09:00
LOCAL: Auditório do LGGP II
TITLE:
Rheological influence on the generation of strike-slip structures: insights of physical modeling and PIV
KEY WORDS:
Transcurrent faults; Riedel fractures; rheology; physical modeling; PIV
PAGES: 90
BIG AREA: Ciências Exatas e da Terra
AREA: Geociências
SUMMARY:
Physical modeling is a tool that has been widely applied in several fields of geology, in particular, structural geology focusing on the tectonics of sedimentary basins and mountain ranges formation, and their associated processes. In this research, analogical physical modeling was used to investigate the influence of rheology on the nucleation and evolution of secondary structures associated with transcurrent tectonics. The experimental models performed in a sandbox apparatus were monitored by conventional photographs, Laser Scanner and Particle Image Velocimetry (PIV). This latest enabled the analysis of the strain distribution within the damage zone, the structures nucleation, their relative chronological relationships and their influence on the topographic evolution of the deformed area. The experiments simulated the development of secondary structures nucleated during a progressive deformation in a dextral shear zone. The models were executed with granular analog materials of different rheological behaviors, such as quartz sand, dry clay, plaster powder and a mixture of sand and plaster powder. The physical properties of these materials were characterized by Ring Shear Tester (RST). Along with the deformational evolution of the experiments, secondary fractures (R, R’, P, Y), pull-apart basin, positive and negative flowers (transpressive and transtrative sites, respectively) and block rotation were analyzed qualitatively. Models constituted of different pre-tectonic sequences without rheological contrasts (a single type of granular material) displayed a geometrical and evolutional diversified structural framework conditioning to the used material. Experiments with rheological stratification (pre-tectonic sequences with different granular materials) displayed a structural architecture distinct from rheological homogeneous models. Our results confirm that rheology has a significant role in the arrangement of secondary faults and their relative chronology during the transcurrent tectonics. These experimental analyses corroborate with natural examples available in the literature
BANKING MEMBERS:
Presidente - 1217847 - FERNANDO CESAR ALVES DA SILVA
Externo ao Programa - 2490483 - ALEX FRANCISCO ANTUNES
Externo à Instituição - Tiago Siqueira de Miranda - UFPE