Crash Full Vehicle FE Model Build Services
Understanding Vehicle Crash Simulation
Vehicle crash simulation is a critical aspect of automotive engineering. It involves analysing how a vehicle behaves during various types of collisions to ensure the safety of occupants and pedestrians. A Crash Full Vehicle Finite Element (FE) Model is a virtual representation of the entire vehicle, which is used to simulate and analyse the impact of a crash on the vehicle’s structure and occupants.
At Machweise Technology, we specialize in the development of highly accurate and detailed Crash Full Vehicle FE Models. Our services are tailored to assist automotive manufacturers and engineers in optimizing vehicle safety, reducing the risk of injury, and ensuring compliance with safety standards and regulations.
Partner with Machweise Technology for Safety Excellence
Benefits of our Full Vehicle FE Model crash simulation
Collaborate with Machweise Technology to harness the power of Crash Full Vehicle FE Models in creating safer, more reliable, and compliant vehicles. Our expertise, meticulous attention to detail, and dedication to safety engineering make us the ideal choice for your crash modelling needs.
Enhanced Vehicle Safety
Our models help identify and address safety issues, reducing the risk of injury to vehicle occupants during collisions
Cost Savings
Early identification and resolution of safety issues reduce the need for costly design changes in later stages of vehicle development
Optimized Vehicle Design
Our crash simulation results lead to design improvements that not only enhance safety but also improve vehicle performance and integrity
Compliance with Safety Standards
Our simulations ensure that vehicles meet safety standards and regulations, avoiding costly recalls and non-compliance penalties
Key Components of Our Crash Full Vehicle FE Model Services
CAD Import and Cleanup
We start by importing the vehicle's Computer-Aided Design (CAD) data. Our experts ensure that the CAD geometry is suitable for analysis by cleaning up and optimizing it for crash simulations
Material Properties
Accurate material properties for vehicle components are assigned to ensure that the FE model accurately represents the physical characteristics of the materials used in the vehicle's construction
Finite Element Mesh Generation
Our team generates a high-quality finite element mesh to discretize the vehicle geometry. Mesh quality is crucial to ensure accurate crash simulations
Occupant Safety Analysis
We analyse the behaviour and potential injury risks to vehicle occupants during a crash, helping identify design improvements to enhance safety
Component and Assembly Modelling
We create a detailed model of every component in the vehicle, from the chassis and body to the suspension, powertrain, interior, and more. Our assembly modelling ensures that all components are properly connected, replicating the real-world vehicle structure
Boundary Conditions
We apply boundary conditions that replicate real-world crash scenarios, including impact forces, deceleration, and dynamic inputs. This ensures that the crash simulations accurately reflect the actual behaviour of the vehicle during a collision
Crash Simulation
We use advanced CAE software to perform a range of crash simulations, including frontal, side-impact, and rollover simulations. These simulations help assess occupant safety, vehicle integrity, and compliance with safety regulations
Reporting and Recommendations
We provide comprehensive reports summarizing the crash simulation results and recommendations for design modifications to improve vehicle safety and compliance with safety standards