Services Static & Transient Structural Simulations Perform professional simulations to understand the stress and deformation in structures under various static and dynamic conditions. Static & Transient Thermal Simulations Analyse heat transfer and temperature distribution under steady-state and transient conditions to inform design decisions. Mesh Independence Study Ensure the accuracy of simulation results with mesh optimization studies that eliminate errors associated with numerical discretization. Stress Analysis Using advanced techniques to evaluate stress concentrations in materials, predicting critical points and ensuring design integrity. Failure Analysis Create innovative product designs that optimize material layout within a given design space for peak performance. Airflow Testing & Optimisation Using advanced techniques to evaluate stress concentrations in materials, predicting critical points and ensuring designintegrity. Structural Optimisation Streamline structural components to achieve optimal performance and efficiency while minimizing material usage and cost. Thermal-Stress Analysis Investigate the interaction between thermal loads and structural integrity to prevent failure due to temperature variations Failure Analysis Determine the root cause of component failures toimprove future designs and enhance reliability. Hydrodynamic Analysis Evaluate fluid flows and their impact on structures to ensure stability and performance in aquatic environments. Drop Test Simulations Simulate impacts and drops to assess the durability and survivability of products during accidental events Combustion Simulations Analyse combustion systems for efficiency, safety, and emission control, optimizing performance for various applications. Factor of Safety Analysis Evaluate design safety margins to ensure products meet industry standards and withstand intended use scenarios. Turbo Machinery Analysis: Apply detailed flow and mechanical simulations to improve the performance and reliability of turbines andcompressors. LES (Large Eddy Simulation) Use high-fidelity turbulence modelling tocapture complex flow phenomena in a multitude of applications. Thermal Analysis Offer thermal behaviour predictions to ensure properthermal management and safeguard equipment operation. Fluid-Structure Interaction (FSI) Address the complex interplaybetween fluid flow and structural response to enhance product design and performance Vibration Analysis Diagnose and predict vibrational issues to minimize fatigue failures and ensure machinery longevity. Buckling Analysis Prevent catastrophic failure by predicting buckling loads and identifying safe load capacities in structural elements. Multi-physics Analysis Integrate multiple physical phenomena into simulations to capture the complex behaviour of systems under realisticconditions. Design Optimization Optimize designs for various objectives, from reducing weight to improving functionality, while considering all relevant constraints. Electromagnetic Analysis Explore electromagnetic fields and their effects on products to ensure proper function and regulatory compliance. Multiphase Flow Analysis Simulate the interaction between different phases of matter to optimize processes involving liquids, gases, and solids Particle Tracking Analysis Trace the movement of particles in a fluid flow to understand the distribution and deposition in various conditions. Fatigue Life Optimisation Extend service life and enhance durability by predicting and improving fatigue performance. Ad-Joint Optimisation Employ advance techniques to rapidly improve designs based on sensitivity analysis and gradient-based optimization. (HVAC) Heating, Ventilation, and Air Conditioning Design and analyse HVAC systems for optimal thermal comfort, air quality, and energy efficiency. Melting & Solidification Optimize material phase transitions for manufacturing excellence with our focused melting and solidification analysis. Our Technologies