Difference between revisions of "NairnFEA"
Jump to navigation
Jump to search
(10 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
'''NairnFEA''' is the open-source code engines engine in this package for doing finite element analysis calculations. It is object-oriented <tt>C++</tt> code that can run on many platforms. The main calculations are parallel code. You run calculations by creating [[FEA Input Files|Input Files for FEA Calculations]]. Once the calculations are done, you have a variety of options for [[Main Page#Visualization|visualizing and analyzing]] the output. | |||
'''NairnFEA''' does only 2D, linear elastic, static finite element analysis. Some of its features are (click each link for details): | |||
* [[Analysis Command|Plane strain, plain stress, and axisymmetric calculations]] | |||
* | * [[FEA Elements|Support multiple types of elements]] | ||
* | * [[FEA Material Models|Can model both isotropic and anisotropic materials]] | ||
* | * [[Create a Mesh with Images and Shapes|Can create a mesh from a digital image]] | ||
* | * [[Create a Mesh with Images and Shapes|Can create a mesh with shape commands]] | ||
* [[FEA Periodic Boundaries|Can model true periodic boundary conditions]] | |||
* [[Explicit FEA Cracks|Several options for modeling cracks and doing fracture mechanics calculations]] | |||
* [[Imperfect Interfaces|Can model imperfect interfaces in composite materials]] | |||
* [[Thermal FEA Calculations|Can calculate thermal residual stresses]] |
Latest revision as of 14:28, 2 January 2014
NairnFEA is the open-source code engines engine in this package for doing finite element analysis calculations. It is object-oriented C++ code that can run on many platforms. The main calculations are parallel code. You run calculations by creating Input Files for FEA Calculations. Once the calculations are done, you have a variety of options for visualizing and analyzing the output.
NairnFEA does only 2D, linear elastic, static finite element analysis. Some of its features are (click each link for details):
- Plane strain, plain stress, and axisymmetric calculations
- Support multiple types of elements
- Can model both isotropic and anisotropic materials
- Can create a mesh from a digital image
- Can create a mesh with shape commands
- Can model true periodic boundary conditions
- Several options for modeling cracks and doing fracture mechanics calculations
- Can model imperfect interfaces in composite materials
- Can calculate thermal residual stresses