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Dynamic Modal Analysis

Understanding Vibrations for Optimal Performance: Our Dynamic Modal Analysis Services Provide Comprehensive Insights

Owing to our years of experience of this domain, we render the best quality of Dynamic Modal Analysis. These services effectively reduce product development cost and time, by reducing design iterations. These dynamic modal analysis services are known for their high effectiveness. Moreover, these are rendered by a team of experts and at cost effective prices.

Other Details:

  • Reduce time to market
  • Increase product quality
  • Reduce the amount of physical product testing,
  • Use FEA to drive product design


  • Reduce product development time and cost by reducing design iterations
  •  Reducing the number of prototypes constructed
  • Reduce the amount of physical product testing, it is still very important to conduct some physical tests
  • Reduce time to market
  • Increase product quality through better understanding of how the product stands up to it’s intended use
  • The earlier FEA is introduced into the product life cycle the better
  • Use FEA to drive product design

Different Types of Engineering Analyses Available:

  • A wide variety of analyses is available as appropriate for your project
  • These range from basic linear static stress analysis, heat transfer, thermal stress, a number of different dynamic analyses, to nonlinear analyses
  • Linear static analysis results sometimes indicate the need for a dynamic or nonlinear analysis
  • Even if you know in advance that a dynamic or nonlinear analysis is required – a linear static analysis is normally conducted first
  • If the product, or the FEA model of the product, cannot survive a linear static analysis
  • Problems must first be fixed at that level before progressing to more complex, time-consuming, and expensive dynamic or nonlinear analyses.


  • Static stress or structural analysis
  • Dynamic stress
  • Thermal stress


  • Steady state heat transfer
  • Transient heat transfer
  • Thermal stress


  • Modal analysis also called normal modes analysis
  • Normal modes vibration analysis via modal effective mass
  • Drop impact – quasi-static
  • Drop impact – nonlinear response
  • Transient analysis / time step – modal superposition
  •  Direct integration
  • Frequency response analysis – sinusoidal vibration
  • Random response analysis – random vibration
  • Shock response analysis – response spectrum
  • Seismic analysis


  • Buckling
  • Fatigue life
  • Composite materials
  • Nonlinear – most of the above coupled with specific nonlinearity
  • Geometric nonlinearity
  • Material nonlinearity
  • Contact nonlinearity
  • Drop impact – nonlinear response

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