Automotive Analyses

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Vibration Analysis:

• Determining the source and effects of vibrations in vehicles.
• Developing solutions to minimize vibrations.
• Optimizing vibration levels to improve comfort and safety.

Vehicle Ride Dynamics Analysis:

• Analyzing vehicle handling, braking, and acceleration performance.
• Optimizing driving stability and controllability.
• Enhancing driving dynamics to provide a safe and enjoyable driving experience.

Sheet Metal Forming Analysis:

• Analyzing the manufacturing stages of sheet metal parts.
• Identifying errors and defects that occur during forming.
• Developing solutions for an efficient and error-free manufacturing process.

Vibration-Based Fatigue Analysis:

• Analyzing the effect of vibration on fatigue life.
• Developing solutions to prevent fatigue damage.
• Increasing the durability and reliability of the vehicle.

Vehicle Crash and Rollover Analysis:

• Analyzing the safety of the vehicle and occupants in crash and rollover situations.
• Developing solutions to minimize damage in accidents.
• Designing vehicles that meet safety standards.

Chassis and Subcomponent Strength Analysis:

• Analyzing the strength and durability of the chassis and subcomponents.
• Developing designs that are resistant to loads and stresses.
• Extending the life of the vehicle and improving its safety.

Seat Crash and Belt Pull Analysis:

• Analyzing the performance of seats and seatbelts in crashes.
• Developing solutions to minimize the risk of passenger injuries.
• Designing safe and effective seat and seatbelt systems.