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An inorganic thermal insulation material produced by high-temperature melting, fiberization, and subsequent pressing after adding a binder. It boasts core advantages such as high-temperature resistance, fire safety, and excellent sound insulation, making it widely used in fields like construction, industry, and shipbuilding.
Elastic insulation and thermal insulation materials, produced through processes such as compounding and foaming, offer core advantages like excellent thermal performance, moisture resistance, and flexibility—they are widely used protective materials in the construction, HVAC, and home appliance industries.
Artificial inorganic fiber insulation and thermal materials, produced via a centrifugal blowing process, feature lightweight properties, high efficiency, and environmental friendliness, making them widely used in fields such as construction, industry, and HVAC systems.
Aluminum Foil-Faced Rubber-Plastic Board
Aluminum-foil-faced rubber-plastic boards are composite materials formed by laminating a layer of aluminum foil onto the surface of a rubber-plastic board. The rubber-plastic board itself features a closed-cell structure and is manufactured by blending rubber with plastic, while the aluminum foil is adhered to the board using a specialized adhesive, creating a two-layer composite structure.
High-Temperature-Resistant Reflective Layer of Aluminum Foil Cloth
Building thermal insulation—including roofs, exterior walls, and underfloor heating systems—industrial pipeline insulation, cold-chain logistics, and automotive thermal shielding. In construction, it is often used in composite form with materials such as rock wool and glass wool to enhance overall thermal performance.
High-Intensity W38 Polypropylene Veneer
High-strength W38 polypropylene veneer is a high-performance veneer material commonly used in building thermal insulation applications, characterized by high strength, moisture resistance, and corrosion resistance.
A-grade vapor-barrier fiberglass membrane with facing
In terms of performance, it boasts an extremely low water vapor transmission rate, effectively preventing indoor moisture from seeping into the insulation layer. This safeguards the insulation material from becoming damp and clumpy, while also avoiding a rise in its thermal conductivity—ensuring the long-term energy-saving efficiency of the insulation system.
1.5mm Thick Glass Fiber-Reinforced Polymer Waterproof Membrane
Thick glass-fiber-reinforced polymer waterproof membrane is a composite waterproof material designed to meet the long-term waterproofing needs of construction, boasting core advantages of "high strength, exceptional durability, and versatile compatibility."
Pink Glass Wool Composite Fiberglass-Reinforced Polymer Waterproof Membrane
Made by combining glass fibers—used as a reinforcing material—with high-performance polymer resins. Glass fibers significantly enhance the roll material's tensile strength, tear resistance, and other mechanical properties, while the polymer resins deliver exceptional waterproof performance. Commonly used polymer materials include polyethylene and polypropylene.
Flame-retardant PVC (polyvinyl chloride) is a material derived from standard PVC, enhanced by either the addition of flame retardants or modifications to its molecular structure, giving it the ability to inhibit or slow down combustion. Due to its relatively high chlorine content—approximately 56%—PVC already exhibits some self-extinguishing properties. However, after undergoing flame-retardant treatment, its fire-resistant performance is further improved, making it widely used in industries where fire safety is critical.
Glass Wool Composite Glass Fiber Reinforced Polymer Waterproof Membrane
A building material made by combining glass wool with fiberglass-reinforced polymer waterproofing membranes, offering multiple functions such as thermal insulation and waterproofing—commonly used in roofing projects for both waterproofing and insulation.