Titanium Alloy Flanges are a key pipe connection element made of non-ferrous metal titanium or its alloys, used to connect two or more pipes to each other at the ends. The flange itself is a disk-shaped structure with a through hole in the center that matches the inner diameter of the pipe, allowing the pipe to pass through and form a solid connection with it. A flange surface with a specific number, size, and arrangement of holes for mounting bolts and/or studs to secure two or more flanges together with mating nuts. One or more sealing gaskets are placed between two butt flanges. When the bolts are properly tightened, the gaskets are compressed and form an effective sealing barrier between the flange sealing surfaces, preventing fluid media from escaping from the connection. leakage.
Some small or application-specific flanges may be designed with threaded interfaces that allow direct threading to pipes or other components. Of course, it can also be connected to the pipe by welding, especially for applications that require extremely high sealing and structural strength, such as pressure vessels, chemical equipment or aerospace applications.
Compared with traditional stainless steel or carbon steel flanges, Titanium Alloy Flanges have lower mass and can still maintain good mechanical properties and creep resistance in high temperature environments, allowing them to maintain structural integrity for a long time in harsh environments. performance and sealing reliability, significantly reducing maintenance costs and extending equipment service life.
Titanium Flanges are widely used in piping systems in chemical processing, petroleum refining, marine engineering, power generation, food processing and other industries, and can also be used to construct piping connections for medical devices or laboratory equipment implanted in the body.
In order to ensure that Titanium Flanges meets relevant standards and usage requirements, our company will conduct the following tests:
Material composition analysis, dimensional inspection, non-destructive testing (such as ultrasonic testing, magnetic particle testing, penetrant testing, etc.), mechanical property testing (such as tensile testing, hardness testing, etc.), sealing performance testing and surface quality assessment, etc.
