Expansion Joint
FABRIC EXPANSION JOINT
High-end engineering considerations and materials are used in the design and production of our fabric expansion joints. We provide several forms of fibreglass coating, laminated PTFE-coated fibreglass for single layer, or to be further combined as a Multi Layer Fabric Expansion Joint, making it ideal for all significant industries. Elastomers such as EPDM, Neoprene, or FKM are also available.
Product Range
High quality Expansion Joint for low temperature
Material: Single or Multilayer Construction
Temperature: 50 ~ 300 Deg. C (max)
Pressure: 0.3 barG
Multiple layer & Versatile Expansion Joint
Material: Multilayer Construction
Temperature: 400 Deg. C (max)
Pressure: 0.3 barG
Adaptable, Resistance & Versatile Expansion Joint
Material: Multilayer Construction
Temperature: 600 Deg. C (max)
Pressure: 0.3 barG
Extreme condition, custom made Expansion Joint
Material: Multilayer Construction
Temperature: 1300 Deg.C and above.
Pressure: 0.3 barG
METAL EXPANSION JOINT
Expansion joints are essential for maintaining safety and compliance with industry standards and regulations, particularly in applications where temperature and pressure fluctuations are significant. Manufacturing sizes range from 50mm to 6000mm, with shapes including rectangular, circular, thick wall, and cold spun, as well as different configurations (e.g., tied, hinged).
Stainless steel, Incoloy, Inconel, Hastelloy, Titanium, and Monel are among the materials that can be used.
As needed, designed to EJMA 10th Edition or ASME.
Use: to transport several types of media, such as steam, emission gases, water, acid, alkali, and hydrocarbon.
TYPES :
Single Expansion Joint
Universal Tied Expansion Joint
Pressure Balanced Expansion Joint
Double Hinged Expansion Joint
Gimbal Expansion Joint
Double Hinged Expansion Joint
Single Tied Expansion Joint
RUBBER EXPANSION JOINT
Our rubber expansion joints satisfy all specifications required by the pipe and ducting industry, if not more. using unique engineering principles and design tools that are in accordance with a wide range of international standards, including ASME Code Section VIII, the Standards of Fluid Sealing Association (FSA), the Standards of Expansion Joint Manufacturers Association (EJMA), the Pressure Equipment Directive (PED), and other ASTM Standard Specification.
We offer a wide variety of design to meet various piping system requirements such as:
• Pressure
• Temperature
• Movement
• Stiffness
• Fluid resistance
COMPOSITE HOSE
Our Composite Hoses are made to withstand even the most rigorous conveyance transfer applications. They are lightweight, strong, flexible, adaptable to changes in temperature and pressure, and conveyance compatible.
Benefits:
• Lightweight
• Highly Flexible
• Multi-purpose
• Safe
• Robust
• Long Shelf Life
• Versatile in manufacturer
• Relatively inexpensive
• Relatively quick to produce
INTERLOCK HOSE
Interlock hoses are available in various materials, including stainless steel, which is highly corrosion-resistant, making them suitable for corrosive or aggressive environments. Interlock hoses are flexible, resilient hoses consisting of interlocking layers of metal, frequently stainless steel. They are used to transport high-temperature materials, steam, chemicals, and gases while managing vibrations and motions in piping systems in sectors including manufacturing and petrochemicals. They provide dependability in difficult situations when standard hoses might not be appropriate.
METALLIC HOSE
Our rubber expansion joints satisfy all specifications required by the pipe and ducting industry, if not more. using unique engineering principles and design tools that are in accordance with a wide range of international standards, including ASME Code Section VIII, the Standards of Fluid Sealing Association (FSA), the Standards of Expansion Joint Manufacturers Association (EJMA), the Pressure Equipment Directive (PED), and other ASTM Standard Specification.
We offer a wide variety of design to meet various piping system requirements such as:
• Pressure
• Temperature
• Movement
• Stiffness
• Fluid resistance