At Talang Praudyogikee LLP, real-world reliability is engineered before the prototype is built.
Our fully licensed ANSYS Simulation Laboratory performs comprehensive Static, Modal, Dynamic, and Fluid analyses — enabling us to validate, optimize, and certify every design we develop.

Key Capabilities

1. Static Structural Analysis
   
   

   • Evaluation of stress, strain, and deformation under static loads.

   • Verification of factor of safety, yield margins, and load path integrity.

   • Comparison of alternate materials and cross-sections for optimized stiffness-to-weight ratio.
     
     

2. Modal Analysis (Natural Frequency & Mode Shapes)
   
   

   • Determination of natural frequencies and vibrational modes to prevent resonance.

   • Validation of design improvements for machine tool gantries, frames, and rotating assemblies.

   • Supports correlation with experimental modal testing (DIC/LDV) for ground-truth verification.
     
     

3. Harmonic & Transient Dynamic Analysis
   
   

   • Response evaluation under sinusoidal, impact, or time-varying loads.

   • Predicts fatigue zones, phase lag, and transient behavior of moving assemblies.

   • Essential for high-speed systems and cyclic loading applications such as feed drives and rotary fixtures.
     
     

4. Fatigue & Life Estimation
   
   

   • Fatigue analysis using S–N curves, Goodman diagrams, and cumulative damage models.

   • Identification of life-limiting regions for preventive design reinforcement.
     
     

5. Thermal & Fluid Flow (CFD) Simulations
   
   

   • Steady and transient heat-transfer and fluid-flow analyses for thermal management systems.

   • Application to brine distribution, cooling channels, and environmental process units.

   • Pressure-drop and velocity-profile optimization for pipe and duct designs.
     
     

6. Vibration & Modal Damping Studies
   
   

   • Assessment of modal damping, frequency response, and operational deflection shapes (ODS).

   • Integration of viscoelastic or composite materials for vibration suppression.
     
     

7. Nonlinear & Contact Behaviour
   
   

   • Analysis of large-deformation, contact, and plasticity for assemblies under realistic boundary conditions.

   • Supports bolted joints, bearing interfaces, and impact components.
     
     

8. Optimization & Design Exploration
   
   

   • Parametric and topological optimization to achieve lightweight yet stiff configurations.

   • Multi-objective analysis integrating MOGA, DOE, and Response Surface Methodology.
     
     

9. Validation & Reporting
   
   

   • Fully licensed ANSYS Workbench, Mechanical, and Fluent environments.

   • Custom reporting with stress contour maps, mode shape animations, convergence charts, and tabulated results.

   • Results formatted for academic documentation or industrial submission.