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With the rapid advances in electronic control within automobiles, the junction block (J/B), primarily used for electrical transmission and electrical wiring, has begun to house electronic control units. It is evolving into an active component with smart functions that also controls vehicle devices, at the core of the wiring harness. We have developed a method using CAE to predict the fatigue failure life of J/B brackets for use as a design-assist tool in the early stage of J/B development. Failure of J/B brackets starts with the repetitive stress generated in the brackets during resonance. This stress is maximum at primary natural vibration which is the lowest frequency during resonance. By accurately estimating the above-mentioned stresses using CAE, we established a method to determine the number of vibrations at which fatigue failure of the J/B bracket would occur (fatigue failure life) from the fatigue failure life characteristics of the material.

Electric connectors for automobile have a housing locking structure to prevent the electric contacts from being disconnected by vibration. As the environment in the automobile becomes more severe, the connector housing tends to deteriorate more quickly. However, we must make sure the locking structure does not break when disconnecting the connector for maintenance. We estimated the lifetime of the locking structure, focusing on heat deterioration properties by using CAE and Miner's rule. In addition, we determined the design standards and the accelerated test conditions to guarantee market reliability.