UCI PE (Polyethylene) Foam Insulation for Steel Structures
UCI PE Foam Insulation is a high-performance, versatile solution designed specifically for the thermal management and protection of steel structures. This lightweight and flexible polyethylene insulation roll is engineered to provide an exceptional barrier against heat and cold, resist water absorption, and absorb shocks, making it an ideal choice for roofs, walls, and other components in pre-engineered metal buildings.
Crafted with a closed-cell structure, this insulation boasts excellent thermal conductivity (0.034 W/mk) and very low water absorption and permeability, ensuring long-term performance and energy efficiency. It is environmentally safe, easy to use, and demonstrates high resistance to common chemicals. Available in various thicknesses and widths, UCI PE insulation provides a comprehensive and reliable system for protecting your steel building investment from the elements while improving interior comfort.
Specifications
- Material: Closed-Cell Polyethylene (PE) Foam.
- Key Features: Excellent heat/cold insulator, water absorption resistant, shock absorber, environmentally safe.
- Thermal Conductivity: 0.034 W/mk.
- Tensile Strength: 210.0 kpa.
- Available Sizes: Thicknesses of 6mm, 8mm, & 15mm; Widths of 1.0m, 1.05m, & 1.10m; Lengths of 20m or as per customer request.
Applications
- Thermal and moisture insulation for roofs and walls in steel structures and pre-engineered buildings (PEB).
- Protective and insulating layer for HVAC systems and ductwork.
- Shock-absorbing layer for industrial flooring and wall applications.
- Ideal for warehouses, factories, commercial buildings, and agricultural structures.
For a durable, easy-to-install, and multi-functional insulation solution, UCI PE Foam Insulation delivers superior performance. Its resistance to water, chemicals, and physical impact ensures your structure is well-protected, energy-efficient, and comfortable.
An environmentally safe insulation that is easy to use and provides excellent resistance to water absorption and superior performance as a heat and cold insulator.