Development of a materially nonlinear hermitian beam finite element.

Yilmaz, Haluk Tuna


Development of Fragility Curves for Single-Column RC Italian Bridges Using Nonlinear Static Analysis
Perdomo, Camilo; Monteiro, Ricardo; Sucuoğlu, Haluk (Informa UK Limited, 2020-05-07)
The main objective of this study is to assess the accuracy and suitability of Nonlinear Static Procedures (NSPs) in the development of analytical damage fragility curves for seismic risk assessment of large portfolios of Reinforced Concrete (RC) bridges. Seven NSP approaches, from widely used single-mode conventional pushover-based approaches to the more rigorous multi-mode conventional or adaptive pushover-based procedures are implemented. By systematically comparing fragility curve estimations in terms of...
Development of a generalized numerical solution for hydrodynamically lubricated elastic surfaces.
Yöney, Taner; Akkök, Metin; Department of Mechanical Engineering (1996)
Development of a Navier Stokes Solver for high fidelity simulatiom of wind turbine noise
Cengiz, Kenan; Özyörük, Yusuf (null; 2013-09-11)
In this report, the first stage of the development process of a flow solver is presented. The solver is intended for high-fidelity simulation of wind turbine aeroacoustics. At this stage of the code development, compressible Euler solver, which has several discretization enhancements for convection term, is tested, validated and discussed. The enhancements include symmetry preservation of the discretized forms, fourth order accuracy and optimization for low-dispersion (DRP), all of which would be quite bene...
Development of a two-dimensional euler solver by using finite difference method for internal flows.
El-Ali, Amer A; Aksel, Haluk; Çetinkaya, Tahsin; Department of Mechanical Engineering (1996)
Development of an all speed navier-stokes preconditioner for two and three dimensional flows on hybrid grids
Baş, Onur; Tuncer, İsmail Hakkı; Department of Aerospace Engineering (2015)
In this study, a novel Mach uniform preconditioning method is developed for the solution of Euler/Navier-Stokes equations at subsonic and incompressible flow conditions. In contrast to the methods developed earlier in which the conservation of mass equation is preconditioned, the conservation of energy equation is preconditioned in the present method to enforce the divergence free constraint on the velocity field even at the limiting case of incompressible, zero Mach number flows. The proposed Mach-uniform ...
Citation Formats
H. T. Yilmaz, “Development of a materially nonlinear hermitian beam finite element.,” Middle East Technical University, 1992.