Morfoestruturas quilométricas em forma de crescente nas águas profundas do Golfo de Cádis

O levantamento batimétrico MATESPRO, realizado no NW do Golfo de Cádis, revelou a existência de intrigantes objectos morfológicos jacentes entre os 4300 e os 4700 metros de profundidade. Estes objectos, de dimensões quilométricas, são constituídos por uma depressão interna limitada parcialmente por uma escarpa em forma em crescente que pode atingir mais de 100 m de altura, com declives que variam entre os 6 e os 27° e cuja parte interna é constituída por uma depressão preenchida por unidades progradantes, que se desenvolvem no sentido da escarpa. Estes objectos são interpretados como o resultado da acção conjunta de processos tectónicos e sedimentares e da sua interacção com correntes de fundo. A actividade tectónica gera rupturas de declive no fundo do mar. As correntes de fundo e turbidíticas interagem com estas irregularidades morfológicas, amplificando-as através da sua acção erosiva, permitindo assim a criação das escarpas abruptas dos crescentes e a formação de corpos sedimentares progradantes. ABSTRACT; Multi-beam swath bathymetry carried out in NW Gulf of Cadiz revealed several intriguing features, lying at depths between -4300 and- 4700 m. These features display kilometric crescent escarpments up to 100 m high with slopes between 6 and 27 degrees, in an area characterized by very shallow general slope gradients (0,5 °). The internal part of a Crescent consists of a depression filled up with upslope prograding drift developing towards the scarp. These features are interpreted as the coupled result of sedimentary and tectonic processes. It is proposed that the Crescents formed when a local morphologic irregularity, corresponding to the bathymetric expression of movement on an underlying thrust, is enhanced by the erosional activity of turbidity and bottom currents. The drift results from the re-deposition of the eroded material in the same location.

Conception of a YBCO Superconducting ZFC-Magnetic Bearing Virtual Prototype

This paper presents the conception of an original superconducting Frictionless Zero Field Cooling bearing virtual prototype. In previous work also shown in this conference, a viability study of a Zero Field Cooling-superconducting bearing concept was conducted. It showed that the virtual prototype is feasible. Moreover, the simulation studies showed that a Zero Field Cooling superconducting track provides not only effective lateral stability but also higher levitation forces than the commonly used Field Cooling tracks. In this paper the new Zero Field Cooling -bearing virtual prototype is modeled in 3D. The virtual prototype was designed having in mind: i) a future implementation in high density polyurethane, for low temperature robustness; ii) future manufacturing in a three axes CNC milling machine and; iii) future implementation of some parts using an additive manufacturing technique.

Tectonic evolution of Variscan Iberia: Gondwana–Laurussia

An integrated interpretation of the late Paleozoic structural and geochronological record of the Iberian Massif is presented and discussed under the perspective of a Gondwana-Laurussia collision giving way to the Variscan orogen. Compressional and extensional structures developed during the building of the Variscan orogenic crust of Iberia are linked together into major tectonic events operating at lithosphere scale. A review of the tectonometamorphic and magmatic evolution of the IberianMassif reveals backs and forths in the overall conver- gence between Gondwana and Laurussia during theamalgamation of Pangea in late Paleozoic times. Stages dom- inated by lithosphere compression are characterized by subduction, both oceanic and continental, development of magmatic arcs, (over- and under-) thrusting of continental lithosphere, and folding. Variscan convergence re- sulted in the eventual transference of a large allochthonous set of peri-Gondwanan terranes, the Iberian Allochthon, onto the Gondwana mainland. The Iberian Allochthon bears the imprint of previous interaction be- tween Gondwana and Laurussia, including their juxtaposition after the closure of the Rheic Ocean in Lower De- vonian times. Stages governed by lithosphere extension are featured by the opening of two short-lived oceanic basins that dissected previous Variscan orogenic crust, first in the Lower-Middle Devonian, following the closure of the Rheic Ocean, and then in the early Carboniferous, following the emplacement of the peri-Gondwanan allochthon. An additional, major intra-orogenic extensional event in the early-middle Carboniferous dismem- bered the Iberian Allochthon into individual thrust stacks separated by extensional faults and domes. Lateral tec- tonics played an important role through the Variscan orogenesis, especially during the creation of new tectonic blocks separated by intracontinental strike-slip shear zones in the late stages of continental convergence.