CAE Center
CAE center dedicated to the application of Computer Aided Engineering (CAE) in the automotive industry. It can provide structural strength, thermal reduction, mechanism motion, electromagnetic fields simulation and test verification comparison services. In recent years, with lots of development for new energy vehicles and automotive electronic products, CAE center has also actively established the technical capabilities of reliability simulation to help relevant manufacturers improve the quality and efficiency of product development.
- Contact
- Name:Ching-Ping Mao
- TEL:ext.3310
- E-mail:maocp@artc.org.tw
Services
Facilities
| LS-DYNA、ABAQUS、ANSYS、HyperWorks\Optistruct、Radioss、Motion |
| ANSYS\Fluent、SC\TETRA、FloTherm |
| HyperWorks\HyperMesh、LS\PrePost、Oasys\primer、MSC\Patran |
| TNO\MADYMO、ETA\VPG、MSC\Fatigue |
| HyperWorks\Optistruct、HyperStudy |
| AutoCAD、Inventor、SolidWorks、Pro\Engineer |
Verify and improve the vehicle structure design to meet the requirements of side impact safety.
Verify and improve the vehicle outer structure to meet the requirements of pedestrian protection.
Verify and improve the structure strength performance of bus, and meet the requirements of bus rollover specifications.
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Using the virtual proving ground to estimate the fatigue life and failure area of vehicle structures for product improvement
Using virtual roller to evaluate the fatigue life of motorcycle frames, and investigate the possible reasons of fatigue crack generation for product improvement.
Use CFD to analyze the lamp for assess the heat transfer and predict the temperature to improve the heat dissipation approach.
Use CFD to simulate the outflow field to evaluate the resistance coefficient of the vehicle and provide a design reference.
Use CFD analysis to estimate the temperature distribution and flow field of the batteries for energy storage system, and provide the reference for the design of heat flow.
Verify the fusion zone shape and the corresponding residual stress distributions during the welding process to meet the requirement of the welding strength specification.
During the RTM manufacturing process of composite material product, simulate the flow wavefront behavior and provide the reference for injection system design.
To estimate the structure strength of composite material product,
and verify the lay-up angles design of laminate to meet the requirements.
Evaluate and improve the electromagnetic characteristic of motor to enhance performance and efficiency of motor.
Evaluate and improve the antenna pattern performance of automotive electronics (such as radar, TPMS,…etc.) to enhance the antenna transmitting and receiving performance.
Using CFD analysis to estimate the temperature distribution and flow field of the components for printed circuit board, and provide the reference to thermal design.
The product would be optimized according to associated specifications by considering the parameters of topology, topography, or shape and size…, etc.
Verify and improve the aircraft seat structure performance to meet requirements of FAR §25.562 emergency landing dynamic conditions.