CAE Center

Vehicle side impact analysis: Verify and improve the vehicle structure design to meet the requirements of side impact safety.

Vehicle full frontal impact analysis: Verify and improve the vehicle structure design to meet the requirements of front impact safety.

Vehicle offset frontal impact analysis: Verify and improve the vehicle structure design to meet the requirements of front impact safety.

Guardrail crash analysis: To evaluate the strength of guardrail design by CAE simulation.

Occupant safety protection analysis: Verify and improve the occupant restrained system performance to meet the requirements of occupant protection specifications.

Occupant protection of airbag analysis: To evaluate the occupant protection performance of airbag design by CAE simulation.

Pedestrian safety protection analysis: Verify and improve the vehicle outer structure to meet the requirements of pedestrian protection.

Durability analysis of motorcycle frames: To evaluate the fatigue life of motorcycle frames, and investigate the possible reasons of fatigue crack generation for product improvement.

Durability analysis of full vehicle: The fatigue and durability analyses of full vehicle, to estimate the fatigue life of vehicle structures for product improvement.

CFD analysis of lamp: Use CFD to analyze the lamp for assess the heat transfer and predict the temperature to improve the heat dissipation approach.

CFD analysis of outflow field for full vehicle: Use CFD to simulate the outflow field to evaluate the resistance coefficient of the vehicle and provide a design reference.

Wheel impact analysis: Verify and improve the impact performance of wheel structure to meet requirements of the product design.

Bus rollover analysis: Verify and improve the structure strength performance of bus, and meet the requirements of bus rollover specifications.

Motion analysis of crankshaft: By processing the product mechanism and motion analyses, the mechanism design of product would be verified and improved to meet the motion functions of the system.

Motion analysis of steering system: By processing the product mechanism and motion analyses, the mechanism designs of product would be verified and improved to meet the motion functions of the system.

Optimization design and analysis:The product would be optimized according to associated specifications by considering the parameters of topology, topography, or shape and size…, etc.

CFD analysis of air conditioning for human comfort: Use CFD to analyze the automotive air conditioning design and the comfort of the human body to provide suggestions for improvement.

Pressure drop analysis of filter: Use CFD to simulate the filter for evaluates the pressure drop performance.

Airborne noise analysis of the axial-flow fan: Airborne noise is the main noise issue of fan. This study is airborne noise simulation for the axial-flow fan.

Aircraft seat strength analysis: Verify and improve the aircraft seat structure performance to meet requirements of FAR §25.562 emergency landing dynamic conditions.

Battery structure strength analysis: Verify and improve the battery structure design to meet the requirements of vibration, mechanical shock and thermal shock specifications.

Battery Pack thermal analysis:Improve and design the airflow tube of battery pack for cooling, and verify temperature rise and operating temperature of batteries in charge and discharge that can meet

Component welding analysis: Verify the fusion zone shape and the corresponding residual stress distributions during the welding process to meet the requirement of the welding strength specification.

Seat belt system dynamic impact analysis: Verify and improve the seat belt system to meet the dynamic impact requirement of ECE R16.

Thermoforming analysis of composite material: Evaluate the changes in fiber stress and angle of composite material product during the thermoforming processing as a basis for the strength design of pro

Structural strength analysis of composite material: Evaluate the structural strength of composite material product, and verify the design of laminate to meet the requirements.

Motor performance analysis: Evaluate and improve the electromagnetic characteristic of motor to enhance performance and efficiency of motor.

Antenna Pattern Analysis:Evaluate and improve the antenna pattern performance of automotive electronics (such as radar, TPMS,…etc.) to enhance the antenna transmitting and receiving performance.