The ozone aging tank utilizes an advanced foreign heating airflow technology to address the inherent temperature imbalance issues found in traditional rotary disc models. This innovation not only enhances the safety of sample rotation but also doubles the effective space utilization compared to conventional rotating systems. It is ideal for conducting high-temperature aging adaptability tests on electronic components, rubber parts, and various other materials.
**Principle of Ozone Aging Test Chamber:**
Ozone generation involves several key methods, including electrolysis, nuclear radiation, ultraviolet light, plasma, and corona discharge. In practice, an ozone generator converts oxidizing air or pure oxygen into ozone by applying a high-energy current that ionizes oxygen molecules. Under ultraviolet light, ozone can naturally form from diatomic oxygen through electron emission or exposure. Industrially, dry air or oxygen is used in a silent discharge process with AC voltages ranging from 5 to 25 kV. Additionally, ozone can be produced by electrolyzing dilute sulfuric acid at low temperatures or by heating liquid oxygen.
Ozone has a short half-life of 30 to 60 minutes due to its instability, making it unsuitable for long-term storage. Therefore, it must be generated on-site. The concentration of ozone produced from air typically ranges between 10 to 20 mg/L, while ozone made from oxygen can reach 20 to 40 mg/L. Air containing 1% to 4% ozone by mass is commonly used for water disinfection purposes. The most common method of ozone production involves a discharge technique using dry air or oxygen as the raw material. Another approach is electrolysis, where water is first split into oxygen, and then the free oxygen is converted into ozone.
This advanced ozone aging system ensures more uniform heat distribution, improved safety, and enhanced efficiency, making it a reliable choice for quality control and material testing in various industries. Whether you're testing the durability of rubber components or the stability of electronic parts under high-temperature conditions, this equipment delivers consistent and accurate results. Its design and functionality make it a valuable tool in laboratories and manufacturing environments alike.
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