Prisitaikančiosios baigtinių elementų strategijos plokštuminiams tamprumo teorijos uždaviniams / Adaptive finite element strategies for solution of two dimensional elasticity problems

Vasiliauskienė, Lina

22 June 2006

The advent of modern computer technologies provided a powerful tool in numerical simulations. One of the most frequently used method for the discretization of the physical domain is Finite element Method (FEM). One of the main problems in a finite element analysis is the adequacy of the finite element mesh. Since the quality of the finite element solution directly depends on the quality of meshes, the additional process to improve the quality of meshes is necessary for reliable finite element approximation. In order to perform quality-assessed numerical simulation, the adaptive finite element strategies have been developed. These strategies integrate the finite element analysis with error estimation and fully automatic mesh modification, user interaction with this process is limited by initial geometry data and possible error tolerance definition. The finite element solution, obtained during adaptive finite element strategy process, approximates quite good different engineering structures. Despite many works in this area the problem of the adequate finite element mesh is not fully solved and additional developments are needed in order to improve adaptive mesh refinement strategy process. The aim and tasks of the work – to obtain methodology for quality assessed discretization to finite elements for complex geometry engineering structures by adaptive finite element strategies. To realize this purpose the following scientific tasks have been dealt: to develop an automatic... [to full text]

Mechanical Engineering

Tinklo optimalumo kriterijai

Mesh optimality criteria

Baigtiniai elementai

Singular points

Finite elements

Adaptive strategies

Prisitaikančiosios strategijos

Singuliarūs taškai

Prisitaikančiosios baigtinių elementų strategijos plokštuminiams tamprumo teorijos uždaviniams / Adaptive finite element strategies for solution of two dimensional elasticity problems

Vasiliauskienė, Lina

23 June 2006

The advent of modern computer technologies provided a powerful tool in numerical simulations. One of the most frequently used method for the discretization of the physical domain is Finite element Method (FEM). One of the main problems in a finite element analysis is the adequacy of the finite element mesh. Since the quality of the finite element solution directly depends on the quality of meshes, the additional process to improve the quality of meshes is necessary for reliable finite element approximation. In order to perform quality-assessed numerical simulation, the adaptive finite element strategies have been developed. These strategies integrate the finite element analysis with error estimation and fully automatic mesh modification, user interaction with this process is limited by initial geometry data and possible error tolerance definition. The finite element solution, obtained during adaptive finite element strategy process, approximates quite good different engineering structures. Despite many works in this area the problem of the adequate finite element mesh is not fully solved and additional developments are needed in order to improve adaptive mesh refinement strategy process. The aim and tasks of the work – to obtain methodology for quality assessed discretization to finite elements for complex geometry engineering structures by adaptive finite element strategies. To realize this purpose the following scientific tasks have been dealt: to develop an automatic... [to full text]

Mechanical Engineering

Prisitaikančiosios strategijos

Baigtiniai elementai

Adaptive strategies

Mesh optimality criteria

Tinklo optimalumo kriterijai

Singular points

Singuliarūs taškai

Finite elements