Tianjin Zhonghuan Launches New Products - High-temperature water-oxygen environment corrosion tester (static), with high integration, capable of operating at temperatures up to 1600 °C. For gases and water vapor, the flow rate is stable and controllable; currently, there are 30-300ml/min、100-1000ml/min and other diverse options. By employing experimental testing methods, we can accurately simulate the extreme service environments experienced by turbine engine and gas-turbine alloys and coatings, conducting cyclic tests to evaluate their resistance to thermal corrosion and steam oxidation, thereby providing a reliable assessment of their thermochemical stability.

The high-temperature water-oxygen corrosion testing system is primarily used in the following industries or fields:
 
Energy sector
 
- Nuclear power: Used to investigate the corrosion behavior of fuel cladding and structural materials in nuclear reactors under high-temperature, high-pressure, boron-containing water environments, thereby ensuring the safe and stable operation of nuclear reactors.
- Thermal Power: Conduct high-temperature water–oxygen corrosion tests on metallic materials such as boiler tubes and steam turbine blades to evaluate their durability in high-temperature steam and water environments, thereby ensuring the reliability of thermal power generation equipment.
- New energy: In solar thermal power generation, it is used to test the corrosion resistance of components such as receiver tubes under high-temperature hot-water or steam conditions. In research on supercritical water-cooled reactors, it evaluates the corrosion behavior of materials in a supercritical water–oxygen environment, providing a basis for material selection in view of commercial applications.
 
Chemical Engineering Field
 
- Petrochemical industry: Conduct material testing on equipment such as reactors, pipelines, and heat exchangers that are exposed to high-temperature, high-pressure, oxygen-rich environments in oil refining and chemical production, in order to prevent corrosion-induced leaks that could lead to safety incidents and economic losses.
- Fine chemicals: In the production of fine chemicals, certain specialized processes must be carried out under high-temperature, oxygen-rich aqueous conditions. This testing system is used to evaluate the corrosion resistance of relevant materials, thereby ensuring the reliable operation of production equipment and maintaining product quality.
 
Materials Science Research Field
 
- Metallic materials research: Investigating the corrosion mechanisms and corrosion rates of metallic materials in high-temperature water–oxygen environments, and developing new corrosion-resistant metallic materials, such as stainless steels and nickel-based alloys.
- Coating materials research: aimed at evaluating the protective performance of various protective coatings in high-temperature, water–oxygen environments, developing high-performance anti-corrosion coatings, and enhancing the corrosion resistance and service life of materials.
 
Aerospace field
 
- Conduct high-temperature water–oxygen corrosion tests on materials used in aeroengine components that are exposed to high-temperature combustion gases and steam, such as turbine blades and combustion chambers, to ensure that these materials maintain excellent performance under complex and harsh service conditions, thereby safeguarding flight safety.
 
Electronics Industry
 
- Investigate the corrosion resistance of electronic component packaging materials under high-temperature, high-humidity, oxygen-rich conditions to prevent failure due to corrosion and enhance the reliability and stability of electronic products.