How does Abeite anti-staic calcium sulfate raised access floor maintain long-term structural stability in high humidity environments?
Publish Time: 2025-12-10
In demanding environments such as data centers, cleanrooms, and medical imaging centers, flooring systems must not only possess reliable anti-static properties but also maintain long-term structural stability under complex conditions including high temperature and humidity, and alternating hot and cold environments. Traditional wood or ordinary composite flooring is prone to swelling, deformation, and mold growth in humid environments, severely impacting safety and equipment operation. Abeite anti-staic calcium sulfate raised access flooring, with its unique material composition and precise structural design, successfully solves the stability problem in high humidity environments, becoming the preferred flooring solution for high-end projects.
1. 100% Environmentally Friendly Natural Gypsum Powder: The Foundation of Stability with High-Density Core Material
The core of Abeite flooring lies in its high-density calcium sulfate core board, made from 100% environmentally friendly natural gypsum powder through a high-pressure steam curing process. Unlike composite boards with added wood fibers or chemical adhesives, pure calcium sulfate has a dense crystalline structure and extremely low water absorption, fundamentally inhibiting moisture penetration and volume expansion. Even with prolonged use in environments with relative humidity exceeding 80%, the core material maintains dimensional stability without bulging, warping, or strength reduction. This inherent moisture-resistant characteristic makes Abeite flooring particularly suitable for the rainy season in southern regions, underground server rooms, or high-humidity coastal areas.
To further enhance moisture resistance, Abeite flooring employs a sandwich-style fully enclosed structure:
Top Finish: Utilizing high-wear-resistant HPL, anti-static PVC, or ceramic veneer, the dense, non-porous surface effectively isolates liquid splashes and moisture penetration;
Bottom Sealing: Covered with galvanized steel sheet or high-barrier aluminum foil, it not only enhances overall rigidity but also forms a reliable moisture barrier, preventing ground moisture from eroding the core material from the bottom;
Four-Sided Covering: Conductive black PVC strips not only ensure grounding continuity but also completely cover the edges of the core board, preventing moisture from being drawn in from the sides via capillary action.
This "six-sided sealing" design ensures that moisture can barely contact the internal gypsum core, buying valuable time for emergency response and preventing structural damage even in the event of a sudden leak or water accumulation during cleaning.
3. Raised Installation System: Accelerated Moisture Dissipation Through Air Circulation
Abeite flooring uses a standard raised installation method, creating a 150–600mm high plenum chamber space through adjustable supports. This design not only facilitates the laying of power and data cables and air conditioning, but also plays a crucial role in high-humidity environments—the raised layer forms a natural or forced convection channel, promoting air circulation beneath the floor and quickly removing accumulated moisture, preventing localized condensation and mold growth. Simultaneously, the metal supports themselves are treated with anti-corrosion technology, ensuring long-term stable support in humid environments without corrosion or deformation.
4. Environmental Protection and Durability Combined: Green Materials for Long-Term Reliability
Abeite insists on using 100% natural gypsum powder, free of formaldehyde, benzene, and other harmful volatile organic compounds, meeting the requirements of international green building certifications such as LEED and GREENGUARD. More importantly, natural gypsum is chemically stable under high temperature and humidity conditions, and will not release gases or pulverize due to aging, ensuring the flooring maintains its original performance for 10 to 20 years. Combined with the durable conductivity of the surface anti-static layer, it truly achieves "one-time installation, long-term peace of mind."
The Abeite anti-staic calcium sulphate raised access floor maintains its superior structural stability in high humidity environments due to its systematic innovation in pure materials, fully enclosed construction, elevated ventilation, and green processes. It is not just a floor, but a "dry fortress" built for sensitive electronic equipment and mission-critical environments.
