Dadvand, Pooyan (Date of defense: 2007-07-13)
The world of computing simulation has experienced great progresses in recent years and requires more exigent multidisciplinary challenges to satisfy the new upcoming demands. Increasing the importance ...
Kamram, Kazem (Date of defense: 2013-06-21)
The development of efficient algorithms to understand implosion dynamics presents a number of challenges. The foremost challenge is to efficiently represent the coupled compressible fluid dynamics of ...
Larese de Tetto, Antonia (Date of defense: 2012-07-05)
Rockfill dams are nowadays often preferred over concrete dams because of their economic advantages, their flexible design and thank to the great advance achieved in geosciences and geomechanics. ...
Labra, C. A. (Carlos Andrés) (Date of defense: 2012-07-19)
Modelling of granular materials, soils and rocks has been a challenging topic of investigation for decades. Classical continuum mechanics has been used to idealize soils and rocks, and numerical solution ...
Lafontaine, Nelson M. (Date of defense: 2016-01-18)
The stated goal of this work is to develop a numerical explicit finite element method able to effectively address the strain localization process, discrete fracture and fragmentation process in ...
Ortega, E. (Enrique) (Date of defense: 2014-05-12)
This work deals with the development and application of the Finite Point Method (FPM) to compressible aerodynamics problems. The research focuses mainly on investigating the capabilities of the meshless ...
Cotela Dalmau, Jordi (Date of defense: 2016-01-15)
This thesis explores the use of stabilized finite element formulations for the incompressible Navier-Stokes equations to simulate turbulent flow problems. Turbulence is a challenging problem due to its ...