Titanium plates are widely used in many fields due to their specific physical and chemical properties. Especially under harsh temperature conditions, whether in high or low temperature environments, it can exhibit good material properties. This makes it an important material choice in industries such as chemical and marine engineering.
In high-temperature environments, standard industrial titanium alloys such as Ti-6Al-4V can maintain their mechanical properties for a short period of time when the temperature reaches 540 ℃, while the recommended temperature range for long-term applications is 450-480 ℃. In addition, the new high-temperature titanium alloy can maintain stable performance in environments up to 600 ℃, which is important for applications such as jet engines.
At low or very low temperatures, the strength of titanium plates increases with decreasing temperature while maintaining their original plasticity and toughness. This characteristic makes titanium an ideal low-temperature engineering material, suitable for storage and transportation containers of liquid oxygen and liquid hydrogen, as well as building materials in cold regions.
Due to these properties, engineers and designers will consider using titanium plates when selecting materials based on the temperature requirements of the application environment. However, it should be noted that although it has good temperature adaptability, its stability and corrosion resistance in specific environments also need to consider other factors, including alloy type, surface treatment method, and compatibility with other materials. Therefore, in practical applications, the selection and use of titanium plates should be thoroughly evaluated to ensure their stability and safety under specific working conditions.