The production method of tantalum capillary seamless tube includes the following steps:
1. Raw material selection: High-purity tantalum ingots are selected as raw materials for the production of tantalum capillary seamless tubes.
2. Smelting and casting: Tantalum ingots are smelted in a vacuum or inert gas environment to prevent contamination and oxidation. The molten tantalum is then cast into a solid form, such as a billet or rod.
3. Extrusion: The solid tantalum form is then heated and extruded through a die to form a seamless tube with capillary dimensions. This process helps achieve the desired size and surface finish of the pipe.
4. Annealing: The extruded tantalum tube is then annealed to eliminate internal stress and improve the ductility and formability of the material.
5. Surface treatment: Tantalum tubes can be surface treated such as polishing or pickling to achieve the required surface finish and cleanliness.
6. Quality control: Check the dimensional accuracy, surface quality, and purity of the finished tantalum capillary seamless tube to ensure that it meets the specified specifications and standards.
Overall, the production of tantalum capillary seamless tubing requires careful handling of the material to prevent contamination and achieve the desired performance, size and surface finish. Quality control measures are critical to ensure that the final product meets the stringent requirements of applications in industries such as aerospace, electronics and chemical processing.
Due to the unique properties of tantalum, tantalum capillary seamless tubes are used in a variety of high-tech and demanding applications. Some common uses include:
1. Chemical processing: Tantalum capillary seamless tubes have strong acid corrosion resistance and are very suitable for use in the production of corrosive chemicals and chemical processing equipment.
2. Aerospace: Tantalum’s high melting point and excellent strength-to-weight ratio make it suitable for use in aerospace applications, such as the construction of aircraft components and propulsion systems.
3. Electronics: Tantalum capillary seamless tubes are used to produce electronic components such as capacitors and high-performance electronic devices due to their excellent conductivity and reliability.
4. Medical devices: Tantalum is biocompatible and non-reactive, making it suitable for use in medical implants such as stents and orthopedic implants.
5. Nuclear industry: Tantalum’s high temperature resistance and corrosion resistance make it suitable for use in nuclear reactors and other nuclear applications.
6. Semiconductor manufacturing: Tantalum capillary seamless tubes are used in the production of semiconductor components and vacuum deposition processes due to their high purity and resistance to pollution.
Overall, the unique combination of properties including corrosion resistance, high melting point and biocompatibility make Tantalum Capillary Seamless Tubing valuable in a variety of industries and applications where reliability, durability and performance are critical .
Wechat:15138768150
WhatsApp: +86 15236256690
E-mail : jiajia@forgedmoly.com