FERRULES FOR CONVOLUTED PTFE, SMOTH PROF DN 5/8" PRODUCT CODE - 880411000

Manufacturer Code - 880411000

£13.32Ex. VAT£15.98Incl. VAT

QTY

Product Description

Ferrules for Convoluted PTFE Hose (Smooth Profile) are specialised fittings designed to create secure and reliable connections for convoluted PTFE hoses. Convoluted PTFE hoses offer flexibility and enhanced pressure resistance, making them ideal for various challenging applications.

Key Features

  • Precision Engineering: Designed specifically for convoluted smooth-profile PTFE hoses, these ferrules ensure a precise fit.
  • Exceptional Chemical Resistance: Constructed from high-quality materials, making them suitable for aggressive environments often encountered in industrial applications.
  • High-Temperature Performance: Ferrules can withstand high temperatures, allowing for use in demanding environments without compromising performance.
  • Smooth Profile Design: The smooth interior of the convoluted PTFE hose reduces turbulence and friction.
  • Ease of Installation: Designed for compatibility with standard crimping tools, these ferrules facilitate quick and easy installation.
  • Non-Skive Options Available: Non-skive ferrules allow for installation without removing the convoluted outer layer.

Benefits

  • Increased Safety: The secure connections provided by these ferrules significantly minimise the risk of leaks.
  • Cost-Effective Solution: The durable construction results in fewer replacements and lower maintenance costs.
  • Versatile Applications: Suitable for various industries, including pharmaceuticals, chemical processing, food and beverage, and more.
  • Simplified Maintenance: Easy installation and compatibility with standard tools streamline maintenance processes.
  • Reliable Performance: The robust design ensures consistent performance under high-pressure and high-temperature conditions.
  • Operational Flexibility: Ferrules can accommodate different types of fluids, providing versatility for various applications across multiple sectors.