The traditional method of testing the fatigue life of metal shrapnel requires manual observation and recording of data, which makes it difficult to improve efficiency and increases time and labor costs. The era of the Internet of Things is constantly developing, and it is now possible to test metal shrapnel through IoT systems. The system includes a microcontroller module, stamping module, metal fracture detection module, WIFI module, and upper computer module. At present, scholars have successfully researched and tested the upper computer measurement and control software for human-machine interaction, automatically generating test data, and achieving fully automatic monitoring and control of the lifespan of metal elastomers.
This not only greatly reduces production costs, but also reduces the workload of the staff. For traditional testing methods, this is a new breakthrough, as the development of technologies such as the Internet of Things and sensors provides the possibility of implementing wireless measurement and control systems for the Internet of Things.
China's manufacturing industry is gradually rising, and the use of metal materials is also increasing. Excessive use of metal materials can lead to the destruction of the structure of metal materials. As an important electronic component, the service life of metal shrapnel directly affects the use of the entire equipment, and in severe cases, it can cause safety accidents. Therefore, people should pay more attention to measuring the service life of metal shrapnel to ensure the quality of the overall equipment.