Accelerate your company vision into the world of EV and autonomous vehicles. We can help you speed ahead of competition with rapid product and process design.

The biggest challenge faced by automotive engineers today is to devise technological advances that maximize engine efficiency, minimize pollutant emissions, and improve reliability and safety. Presently, automotive engineers are looking to replace traditional internal combustion engines with fuel cells, electric/hybrid systems and batteries. With IOT, 5G, AI and smart electronics and controls, the automotive industry is turning a new leaf to embrace the autonomous control and connected systems. The use of composite materials and light-weight design improves fuel consumption efficiency. Optimizing vehicles’ complex aerodynamics can improve fuel economy further, all done with safety and comfort in mind.

The worldwide automotive industry views innovation and advanced technological adoption as a critical competency to solve these challenges. CFD simulation, additive manufacturing, composite material design, electromagnetics analyses for controls, antenna, sensors etc can help engineers to design and validate products fast and reliably in virtual environment. They can simulate their ideas easily without costly prototyping and time-consuming physical experiment.

Optimaxx CAE consulting services offer our resources, expertise and innovative approach to solve a broad range of complex automotive industry challenges. We help our clients achieve cost savings by analyzing and optimizing automotive systems to gain significant edge on the competition.

Capabilities:
  • Examine and optimize aerodynamic performance of automotive vehicles.
  • Stress analysis of chassis frame for strength evaluation and weight reduction.
  • Modal analysis to find resonant frequencies of a structure.
  • Assess performance of internal combustion engine and predict pollutant formation.
  • CFD analysis of automotive HVAC system to achieve passenger thermal comfort.
  • Crash and impact simulations for standard compliance and safety regulations.
  • Innovative antenna design for modern connected vehicles.
  • Composite materials design and analysis for vehicle light-weighting

Project Examples:

Evaluation of Car Aerodynamic Performance for Drag Reduction

Stress Analysis of Bus Structure for Durability and Weight Reduction

Modal Analysis of Chassis Frame for Prediction of Resonant Frequencies

Rack and Pinion Stress Analysis

Airless Tyre Stress Analysis for Deformation Reduction

Crash Simulation of a Car Body