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Our XPS Underlayment (Extruded Polystyrene) provides exceptional sound insulation, vibration reduction, and various forms of durability. Made from high-density materials, it absorbs and effectively blocks out noise; a stable, supportive base is provided for almost any type of flooring system. Ideal for residential, commercial, educational, and medical facilities, this underlayment ensures comfort, safety, and long-term performance.
| XPS product features | Characteristic specification |
Superior Sound Insulation | The high-density XPS foam underlay specifically works to reduce impact noise; quieter multi-level homes, offices, and smaller classroom-type spaces are the primary end uses envisioned. |
Effective Moisture Barrier | The closed cell structure of the extruded polystyrene offers 100% protection from ground moisture - floor deformation and all associated mold issues are prevented. |
High Compression Resistance | Its compressive strength means this XPS flooring underlay won't sag beneath heavy furniture and will provide long-lasting floor support. |
Excellent Thermal Insulation | This XPS underlayment will minimize heat loss, save energy and feature optimal cushioning for your comfort. |
Reliable Fire Safety | Class B1 fire-rated, meeting or exceeding all current commercial and/or residential building codes. |
Broad Compatibility | Laminate, LVP, SPC and to a point, all engineered wood floors can be supported by this XPS underlayment. |
● Premium Residential & Renovation Projects
Our high performance XPS foam underlay serves as the ideal foundation for luxury vinyl plank (LVP) and various forms of laminate flooring. Hollow sounds are eliminated, and a truly solid and comfortable underfoot feel is achieved. Changing the entire ambiance of a home is one of its primary benefits. Moisture from beneath the floor is also effectively blocked.
● High-Traffic Commercial Spaces
Retail stores, offices, and smaller form restaurants all fall under this category. Constant load is the main concern here, and the durable underlay we provide addresses it well. Superior compression resistance is what prevents (near complete) deformation of the flooring itself. Investment protection and follow-up maintenance are both reduced by using our underlay.
● Multi-Family Housing & Hospitality
Effectively solve noise transfer between floors. This certified acoustic XPS underlayment significantly reduces impact sound (IIC). Tenant comfort and subsequent satisfaction are directly enhanced within apartments, hotels, and various types of healthcare facilities.
● Specialty Applications: Fitness & Dance Studios
The exceptional vibration damping and near-perfect energy return that our extruded polystyrene foam underlay provides is the essential shock absorption required. Protecting both the flooring itself and all joints, a safer, more resilient surface can be created for all forms of continuous high-impact activity.
● Underfloor Heating Systems
Maximizing the efficiency of the heating system is a primary concern. XPS serves as a thermal insulation barrier - directing heat upward into the room. Faster warm-up times, smaller constant energy draws, and near-perfect compatibility are all benefits realized through using this underlayment.
ISO 9001 Quality Management Certification
RoHS and REACH compliance for environmental safety
Q: What flooring systems are compatible with XPS underlayment?
A: Suitable for wood, vinyl, laminate, tile, and other flooring types.
Q: How does XPS underlayment improve soundproofing?
A: The high-density structure absorbs impact and airborne noise, reducing disturbances.
Q: Is XPS underlayment fire-resistant?
A: Certain models offer excellent fire resistance, meeting safety standards.
Our XPS underlayment undergo a rigorous production process to ensure that each batch of products meets high standards:
1. Raw material mixing: Select low-density polyethylene (LDPE) and auxiliary materials, and use an efficient mixer to ensure uniform distribution of raw materials.
2. Extrusion molding: The mixed raw materials are melted and extruded through an extruder to form a uniform sheet.
3. Electron irradiation cross-linking: The electron accelerator is used for radiation cross-linking to change the original structure of the base material and form a mesh independent closed-cell foam structure.
4. High-temperature foaming: Continuous foaming at high temperature to form a fine and uniform foam structure.
5. Cooling and shaping: Rapid shaping through the cooling system to ensure stable product size.
6. Rolling and packaging: The finished product is rolled and packaged for easy transportation and use.
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