What industries is ANSYS primarily applied in? What are its advantages?
Publishdate:2016-10-21 Views:5
The ANSYS finite element software package is a versatile finite element method computer design program that can be used to solve problems related to structures, fluids, electricity, electromagnetic fields, and collisions. Therefore, it can be applied in the following industrial fields:
Aerospace, automotive industry, biomedical, bridge, construction, electronic products, heavy machinery, microelectromechanical systems, sports equipment, etc.
The software mainly consists of three parts: pre-processing module, analysis and calculation module, and post-processing module.
The pre-processing module provides a powerful tool for solid modeling and mesh partitioning, allowing users to easily construct finite element models;
The analysis and calculation module includes structural analysis (which can perform linear analysis, nonlinear analysis, and highly nonlinear analysis), fluid dynamics analysis, electromagnetic field analysis, acoustic field analysis, piezoelectric analysis, and coupling analysis of multiple physical fields. It can simulate the interaction of multiple physical media and has sensitivity analysis and optimization analysis capabilities;
The post-processing module can display the calculation results in graphical formats such as color contour lines, gradient displays, vector displays, particle flow path displays, stereoscopic slice displays, transparent and semi transparent displays (allowing the internal structure to be seen), and can also display or output the calculation results in chart or curved line formats.
The software provides over 100 types of units for simulating various structures and materials in engineering. This software has multiple versions and can run on various computer devices from personal computers to mainframes, such as PCs, SGI, HP, SUN, DEC, IBM, CRAY, etc.
The ANSYS finite element software package is a versatile finite element method computer design program that can be used to solve problems related to structures, fluids, electricity, electromagnetic fields, and collisions. Therefore, it can be applied in the following industrial fields:
Aerospace, automotive industry, biomedical, bridge, construction, electronic products, heavy machinery, microelectromechanical systems, sports equipment, etc.
The software mainly consists of three parts: pre-processing module, analysis and calculation module, and post-processing module.
The pre-processing module provides a powerful tool for solid modeling and mesh partitioning, allowing users to easily construct finite element models;
The analysis and calculation module includes structural analysis (which can perform linear analysis, nonlinear analysis, and highly nonlinear analysis), fluid dynamics analysis, electromagnetic field analysis, acoustic field analysis, piezoelectric analysis, and coupling analysis of multiple physical fields. It can simulate the interaction of multiple physical media and has sensitivity analysis and optimization analysis capabilities;
The post-processing module can display the calculation results in graphical formats such as color contour lines, gradient displays, vector displays, particle flow path displays, stereoscopic slice displays, transparent and semi transparent displays (allowing the internal structure to be seen), and can also display or output the calculation results in chart or curved line formats.
The software provides over 100 types of units for simulating various structures and materials in engineering. This software has multiple versions and can run on various computer devices from personal computers to mainframes, such as PCs, SGI, HP, SUN, DEC, IBM, CRAY, etc.
