Blog

What Industries Use Angling Machines for SWG Inner Ring and Why?

2024-08-24

Angling machines are used to create an angled bevel on a sealing ring. This process is essential in the creation of spiral wound gaskets (SWG) inner ring. The SWG inner ring is used in various applications across a wide range of industries. This ring is crucial in the manufacturing process and helps to ensure a tight seal in high-pressure settings.

Angling Machine For SWG Inner Ring

There are several industries that rely on angling machines for SWG inner ring:

  • Oil and Gas: SWG inner ring is widely used in the oil and gas industry. The ring is suitable for high-pressure and high-temperature conditions.
  • Chemical: Angled inner rings are commonly used in chemical processing plants. The ring can withstand the corrosive nature of many chemicals.
  • Food and Beverage: Angling machines are used in the production of food and beverage equipment. The ring can withstand high pressure and temperature and can prevent contamination.
  • Pharmaceutical: The pharmaceutical industry requires specialized equipment that can withstand the harsh conditions of the manufacturing process. SWG inner ring is used in this industry to provide a tight seal in high-pressure settings.
  • Automotive: SWG inner ring is used in the automotive industry to help create a tight seal in high-pressure conditions. These seals are essential components in engines and transmissions.

Why is the SWG inner ring so important? The ring provides a tight seal in high-pressure conditions, which can prevent leaks and contamination. In addition, the angled bevel created by the angling machine helps to distribute the load evenly across the ring, which helps to prevent damage and wear.

Overall, angling machines for SWG inner ring play a critical role in various industries. These machines help to create a tight seal in high-pressure conditions and prevent leaks and contamination. When paired with SWG, the ring can withstand a wide range of temperatures and pressures, making it a versatile and reliable choice for many applications.

At Ningbo Kaxite Sealing Materials Co., Ltd., we specialize in producing high-quality sealing materials for various industries. Our products include SWG inner ring and angling machines. For more information about our products and services, please contact us at kaxite@seal-china.com.

Research Papers:
  • R. S. Dias and G. A. Schneider. (2006). "Testing of Spiral Wound Gaskets Under Radial Compression and Internal Pressure". Journal of Pressure Vessel Technology, 128(3).
  • D. Venugopal, B. K. Avvari, D. N. Rao, and K. F. Qu. (2012). "Gasket Stress Relaxation Behavior of Bolted Flange Joint Under Elevated Temperature and Pressure". Journal of Pressure Vessel Technology, 134(5).
  • X. Li, Q. Lin, and L. Wang. (2016). "Finite Element Analysis of Static and Dynamic Characteristics of Spiral Wound Gasket Seal Under External Loads". Journal of Pressure Vessel Technology, 138(6).
  • J. Kim, H. Lee, J. Kim, and J. Hong. (2016). "An Experimental and Numerical Investigation of Sealing Performance of Metal-to-Metal Seal Type of Gasket Under Internal Pressure Loading". Journal of Pressure Vessel Technology, 138(2).
  • M. R. Maleki and M. A. Latif. (2012). "Numerical Investigation of Bolt Load Distribution in Bolted Flange Joint". Journal of Pressure Vessel Technology, 134(4).
  • X. Xie, H. Godbole, K. K. Chaturvedi, and J. Kim. (2014). "Understanding of Creep Relaxation Behavior of Bolted Flanges Joints Under High Temperature". Journal of Pressure Vessel Technology, 136(5).
  • G. Li, B. Chen, and M. Wilson. (2017). "Experimental Study of Sealing Performance of Gaskets at Low Bolt Load Conditions". Journal of Pressure Vessel Technology, 139(2).
  • S. Arnaout and S. Chehade. (2015). "Sealing Performance of Spiral Wound Gasket Under Non-uniform Bolt Load Distribution". Journal of Pressure Vessel Technology, 137(2).
  • X. Wu and Y. Zhang. (2018). "Bolt Load Variation and Its Effect on the Performance of Metallic Gasketed Joint". Journal of Pressure Vessel Technology, 140(1).
  • A. E. Bayoumi, B. S. Soliman, M. A. Abouelwafa, and K. Alkassar. (2013). "Torsion Failure of Bolts in Bolted Flange Joints". Journal of Pressure Vessel Technology, 135(4).
X
We use cookies to offer you a better browsing experience, analyze site traffic and personalize content. By using this site, you agree to our use of cookies. Privacy Policy
Reject Accept