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Finite Element Analysis (FEA)
FEA allows for a detailed visualization of where parts bend or deform, and indicates the distribution of stresses and displacements. In addition, FEA is capable of a wide range of simulation options controlling the complexity of both modeling and analysis of any design.
Our engineers can perform linear, non-linear, vibration, buckling, impact, and more product quality analytics.
Finite Engineering has extensive experience applying targeted experimentation for calibration and validation of finite element simulations. We provide a comprehensive technical report detailing stresses, strains, and deformations. Based on the FEA results, recommendations are made for design optimization.
Finite Element Modeling
Stress Analysis
(Stress, Strain, Factors of Safety, Fatigue, Creep)
Vibration Analysis
(Modal, Harmonic, Random, Transient Dynamic)
Rotor Dynamics
Thermal Analysis
(Thermo-Mechanical Stress Analysis)
Seismic Analysis
(Equivalent Static, Response Spectrum, Transient Dynamics)
Non-Linear Analysis
Optimization Analysis
Computational Fluid Dynamics(CFD)
Computational fluid dynamics (CFD) is an aspect of multiphysics system analysis that undertakes simulating the behavior of fluids and their thermodynamic properties using numerical models. In the case of Cadence’s robust CFD suite, this includes application areas such as propulsion, aerodynamics, hydrodynamics, and combustion. What makes CFD platforms pivotal is their ability to adapt to specific instances of additional physical phenomena.
Compressible and Incompressible flows
Transient & Steady State , Laminar & Turbulent flows
Multiphase & Multi-component Flows
Conduction, Convection, Radiation problems
Heat Exchanger Optimization Studies
Turbomachinery Design and Performance Analysis
Conjugate Heat Transfer Analysis
Aerodynamics Analysis
