How does anti-static calcium sulfate raised access floor achieve high load-bearing capacity to meet the stringent requirements of special scenarios?
Publish Time: 2026-01-31
In modern data centers, communication equipment rooms, clean rooms, medical imaging centers, and high-end laboratories—places with extremely high environmental control requirements—flooring systems must not only possess excellent anti-static properties but also withstand complex loads from dense pedestrian traffic, long-term placement of heavy equipment, and even frequent movement. Anti-static calcium sulfate raised access floor, with its superior structural strength, environmental characteristics, and stable performance, has become the preferred flooring solution for these special scenarios. It is particularly noteworthy that this product is made from 100% environmentally friendly natural gypsum powder, balancing high performance with sustainable development principles.
1. High-Density Core Material Provides Superior Load-Bearing Capacity
The core of anti-static calcium sulfate flooring lies in its high-density calcium sulfate substrate. Through high-pressure molding and high-temperature curing processes, natural gypsum powder is densely compressed, forming a uniform, hard, and highly flexurally strong core. Typical products can withstand concentrated loads exceeding 300 kg, with uniformly distributed loads generally exceeding 1200 kg/m², and some reinforced products can even withstand static pressures exceeding 2000 kg/m². This means that even when housing heavy equipment such as large server racks, MRI machines, industrial-grade UPS power supplies, or precision testing instruments, the floor remains structurally stable, without collapsing, deforming, or cracking.
2. Adaptable to High-Traffic and High-Personnel Environments
In high-traffic areas such as command centers, call centers, and financial trading halls, the floor must withstand the dynamic impacts of heavy foot traffic, cart movement, and temporary gatherings. Calcium sulfate flooring, due to its excellent elastic modulus and fatigue resistance, effectively distributes point loads and avoids localized stress concentration. Combined with a high-strength steel or aluminum support system, the entire raised floor system forms a stable three-dimensional load-bearing structure, maintaining its flatness and smoothness even under daily traffic of thousands of people, without abnormal noise or settlement, ensuring safe passage and comfortable use.
3. Meets the Needs of Heavy Equipment Installation and Maintenance
In data centers and communication hubs, IT equipment is frequently updated, often requiring the use of hydraulic pallet trucks or forklifts for equipment relocation. Antistatic calcium sulfate flooring typically has a highly wear-resistant and antistatic surface layer with high Mohs hardness and strong scratch resistance, resisting the pressure of rollers and friction from metal casters. Simultaneously, the modular design of the flooring allows for easy partial opening, facilitating cable laying and equipment maintenance. Even during frequent disassembly and assembly, the high-strength core material is not easily broken or crumbled, ensuring long-term integrity and cleanliness—especially important in GMP cleanrooms and biological laboratories.
4. Environmentally Friendly Materials for a Solid Foundation of Safety and Sustainability
Unlike traditional composite flooring that may contain formaldehyde or volatile adhesives, this product uses 100% environmentally friendly natural gypsum powder as raw material. The production process contains no harmful additives, and the finished product is non-radioactive and odorless, meeting green building evaluation standards. Gypsum itself has natural moisture-regulating, fire-resistant, and sound-absorbing properties, further improving indoor environmental quality. Even in high-temperature or fire conditions, it will not release toxic gases, buying valuable time for personnel evacuation and equipment protection.
In addition to high load-bearing capacity, anti-staic calcium sulfate raised access floor integrates multiple functions: its surface resistivity is stably controlled between 10⁵–10⁹Ω, effectively dissipating static electricity and protecting sensitive electronic equipment; the raised floor allows for flexible layout of power cables, air conditioning ducts, or fire protection pipelines, achieving efficient space utilization; and its flatness error is ≤0.5mm, meeting the levelness requirements of precision instruments. Therefore, it is not only suitable for conventional computer rooms but also widely used in special scenarios with extremely high requirements for safety, reliability, and functionality, such as aerospace control centers, semiconductor manufacturing workshops, and hospital surgical information integration platforms.
In summary, anti-staic calcium sulfate raised access floor, based on natural and environmentally friendly materials, with high load-bearing capacity and high stability as its core advantages, successfully addresses multiple challenges such as long-term placement of heavy objects, dense pedestrian traffic, and frequent equipment movement. In the trend of intelligent and green building, it is not only a reliable floor but also an invisible cornerstone supporting the safe operation of critical infrastructure.
