Publication | Open Access
Numerical study of continental collision: influence of buoyancy forces and an initial stiff inclusion
92
Citations
28
References
1986
Year
EngineeringMantle DynamicFluid MechanicsComputational MechanicsContinental MarginGeophysicsContinental CollisionPlate TectonicsPlate BoundaryInitial Stiff InclusionNumerical SimulationAiry CompensationContinental ShelfGeodesyPhysicsBuoyancy ForcesThin Plate TheoryLithospherePlate ThicknessTectonicsStructural GeologyFluid-structure InteractionAerospace EngineeringSeismologyCivil EngineeringGeomechanicsFluid-solid InteractionCrust-mantle Interaction
Although deformation is three-dimensional in nature, a plate thickness of the order of 100 km permits a 2-D approach for wavelengths longer than a few hundred kilometres. We assume an Airy compensation at the crust-mantle boundary throughout the deformation. We can then reduce the problem to a 2-D one within the context of thin plate theory. This model makes it possible to study crustal thickening during collisions.
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