Elastomer Materials Fatigue Finite Element Analysis
FEA & CFD Based Simulation Design Analysis Virtual prototyping MultiObjective Optimization
Developers of rubber materials, components and systems increasingly rely on simulation as a routine means to address design issues. For metallic components, solutions for fatigue analysis from FEA have existed commercially for many years and have become an essential part of maturing and qualifying design concepts in many industrial sectors. Using modern multiaxial strain based fatigue methods enable us to simulate the fatigue analysis of elastomer materials and Rubber.
Because of their macromolecular structure, elastomers exhibit unique behavior and require specialized analysis methods:
- Finite Strains
- Nonlinear Elasticity
- Strain Crystallization
- Time Dependence
- Temperature Dependence
- Ozone Attack
- Mullins Effect
- Crack closure
- Fatigue Threshold
- Microstructural crack precursor size
Based on what we want to Design and Analysis, Stress, Strain or temperature from finite element (FE) software such as ANSYS, ABAQUS, NASTRAN, LS-Dyna, MSC Marc etc used. This FEA (Finite Element Analysis) must contain correspond simulation step detail based on what we want to do in Fatigue Simulation. Enteknograte engineers use different methodology for each specific industrial and research fields and multiphysics. MSC CAEFatigue, Ansys Ncode, Simulia FE-Safe and FEMFAT are our fatigue analysis tools. With the Fatigue analysis, we can:
- Correct for mean stress and surface finish effects
- Determine a scale or fatigue concentration factor required to achieve a target life
- Review damage histograms to determine which load cycles were most damaging
- Output damage time histories to show exactly when the damage occurred
Durability and Fatigue Application highlights in different industry
- Fatigue Simulation in Aerospace: Wings, panels, engine blades, rivets, bondings, valves, nacelles, interior component, etc.
- Durability and Fatigue in Automotive: Chassis, rivets, bolts, wheels, connecting rods, full body systems, door, seat, dashboard, interior component, drivetrain component, underhood, oil cooler bracket, front-end carrier,Fatigue behavior of vehicle-mounted medical equipment as it interacts with the suspension dynamics of the vehicle and the road load, etc.
- Fatigue Application in Biomedical: Prosthesis, Fatigue properties of medical implants, etc.
- Durability and Fatigue in Energy sector: Pipes, vessel, valves, fan blade, pump body, Effects of the complex conditions seen in wind turbines such as vibration, the effects of rotating components and different wind states, etc.
- Fatigue Simulation in Electronics: Connectors, clips, electronic racks and housing assemblies,etc.
- Fatigue Simulation in Marine and offshore: Ship hulls and staructures fatigue analysis of welded joints using FEA models, etc.