Due to the requirements of the operational environment, the reliability of aerospace materials is very important and needs to be tested and verified in simulated environments. These tests and validations can help to ensure the products can operate safely and reliably in space or at high altitudes. In addition, special test equipment can be used to simulate temperature, pressure, vibration, radiation and other factors in the space environment to verify the durability of spacecrafts or satellites.
As one of the basic research and development test equipment, environmental and reliability test equipment is the guarantee of quality and plays an irreplaceable role.
The reliability of electronic components is the foundation and core of the reliability of various electronic equipment and devices, which runs through the entire life from product design, manufacturing, installation, usage to maintenance.
With the progress of science and technology and the demands of economic development, electronic products are increasingly developing in the direction of multi-function, miniaturization and high reliability. The complexity of functions makes more and more components and parts be used in equipment, and the requirements for reliability become higher and higher. The failure of any component may cause the equipment or electronic system to fail.
Therefore, improving the reliability of electronic components and their operational dependability plays a key role in extending the service life of the whole machine, reducing the repair rates and improving the performance of the whole machine.
In the R&D or production process of instruments and meters, it is necessary to simulate extreme temperature, humidity, vibration and other conditions through environmental and reliability test equipment to verify their stability and accuracy in different environments. For example, temperature fluctuations may affect the accuracy of sensors, humidity changes may cause circuit oxidation, and vibration tests verify structural durability.
The instruments and meters industry must meet specific environmental adaptability requirements, such as IP (Ingress Protection). This can be achieved by simulating complex industrial environments (such as dust and salt spray) to ensure that products comply with relevant industrial equipment testing standards.
When subjected to prolonged exposure to vibration or temperature fluctuations, the internal components of the instruments and meters are easy to fatigue and damage. Through accelerated aging tests (such as high temperature storage and temperature shock), product durability can be evaluated and data support can be provided to optimize the maintenance intervals.
With the rapid development of national defense science and technology industry, the demand for environmental adaptability testing of scientific and technological equipment is also increasing. Product specimens must operate reliably in extreme environments, such as high temperature, low temperature, humidity, high pressure, vibration, etc.
These devices need to undergo rigorous testing to ensure that they can meet standards and operate reliably in harsh environments. Environmental and reliability test equipment can simulate the real environments and measure parameters such as durability, reliability and safety of equipment. These test data can help to determine whether the equipment meets the standards and make adjustments if necessary.
New energy refers to various forms of energy other than traditional energy sources, and refers to energy sources that have just been developed and utilized or are being actively studied and need to be promoted, such as solar energy, geothermal energy, wind energy, marine energy, biomass energy, nuclear fusion energy, as well as energy generated by biofuels and hydrogen derived from renewable energy sources, of which lithium batteries are the most representative.
The energy storage batteries involved are prone to short circuit, combustion, and even explosion, so they must undergo battery safety and environmental reliability test before they can be put into use. Environmental and reliability test equipment can help developers to simulate the working conditions of new energy products such as batteries under different conditions, and measure parameters including charge, voltage, current, power and cycle life. It can be used to evaluate the energy density, charging speed, discharge speed and others of the battery, and can also be used to improve product design and production process.
