Anti-Static Woodcore Raised Access Floor

A The accessible plenum space simplifies installation and reconfiguration of power, data, and AV cabling, accommodating evolving workplace technology without disrupting operations.
Cable grommets and outlet boxes can be installed directly through panels, providing convenient connectivity at workstations.
Their compatibility with smart building systems—including underfloor sensors and wireless access points—makes woodcore floors a flexible foundation for IoT-enabled office environments.

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Many woodcore panels utilize FSC-certified or recycled wood content, supporting responsible forestry practices and circular economy principles.
The modular design allows for easy disassembly and reuse during building renovations, minimizing construction waste compared to fixed flooring systems.
Some manufacturers offer formaldehyde-free adhesives and low-VOC finishes, contributing to healthier indoor air quality in sensitive environments like schools and healthcare facilities.

A Yes, woodcore raised access floors work effectively with underfloor air distribution (UFAD) systems, utilizing the plenum space to deliver conditioned air directly to workstations.
Perforated panels with adjustable diffusers can be strategically placed to optimize airflow, reducing energy consumption compared to traditional ceiling-based HVAC.
The wooden core's insulating properties help maintain consistent air temperatures within the plenum, enhancing overall system efficiency in LEED-certified or green building projects.

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Standard woodcore systems require controlled environments with relative humidity between 30-60% to prevent swelling or delamination.
For areas with moderate moisture exposure—such as basements or laboratories—panels with water-resistant cores and enhanced edge sealing offer improved performance.
However, they are not recommended for continuously wet environments like commercial kitchens or swimming pool facilities, where waterproof alternatives like vinyl-clad steel floors would be more appropriate.

A Regular maintenance includes vacuuming or dry mopping to remove debris that could scratch surfaces or block underfloor airflow.
Spills should be cleaned immediately to prevent moisture penetration, using manufacturer-approved cleaners to avoid damaging protective coatings.
Periodic inspections check for loose panels, pedestal stability, and signs of core degradation, with damaged panels replaced promptly to maintain system integrity.

A Installation begins with subfloor preparation, including cleaning, leveling, and moisture testing to prevent future warping.
Adjustable steel pedestals are positioned according to layout plans, then aligned and secured with stringers for lateral stability.
Woodcore panels are laid into the grid, with tongue-and-groove edges ensuring tight joints, followed by trimming and application of final floor finishes like carpet tiles or vinyl.

A Standard woodcore panels typically support concentrated loads ranging from 200kg to 500kg, making them suitable for office furniture, workstations, and light equipment.
Heavy-duty variants, reinforced with thicker steel cladding and denser core materials, can accommodate loads up to 1000kg for server racks or medical equipment.
The system's overall strength depends on pedestal spacing, panel thickness (usually 30-40mm), and edge reinforcement design, with manufacturers providing detailed load charts for specific configurations.

A Woodcore raised access floors excel in environments prioritizing cost-effectiveness, ease of modification, and acoustic performance, such as corporate offices, educational facilities, and hospitality spaces.
Their natural dimensional stability—when properly sealed—makes them suitable for climate-controlled interiors where temperature and humidity fluctuations are minimal.
They also provide an ideal base for decorative floor coverings due to their smooth, consistent surface.

A Woodcore panels offer superior acoustic insulation compared to steel alternatives, reducing impact noise transmission between floors.
They are generally lighter than calcium sulphate panels, simplifying handling during installation while maintaining adequate load capacity for office environments.
However, woodcore systems may require additional treatments to match the fire resistance ratings of steel or calcium sulphate options in high-risk areas.

A  Yes, of course. Anti-Static Woodcore Raised Access Floor can be customized to fit specific project requirements. This includes customized panel sizes, finishes, and accessories, such as ramps, steps, and handrails.

A  The Anti-static property is achieved through a special surface finish, which is usually made of high-pressure laminate or vinyl covering. The raised design of the flooring provides a convenient underfloor space for utilities such as wiring, data cables, and HVAC systems. Anti Static Woodcore Raised Access Flooring is an efficient solution for modern technological spaces as it combines strength, electrostatic control, and ease of maintenance.

A Anti-Static Woodcore Raised Access Floor is specifically designed to prevent static electricity buildup, protecting sensitive electronic equipment from potential damage. Its raised design allows for easy access to underfloor utilities, making it ideal for data centers that require efficient infrastructure management.

A Yes, we could offer the sample for free charge but do not pay the cost of freight.

A Generally it is 15~20 days .