TEROU & TONGLU
73089000
500*500
Product Description
| Bare Finished Steel OA500 network raised access floor | |||||||
| Type | Size (mm) | Concentrated Load (N) | Uniform Load (N/m2) | Ultimate Load (N) | Impact Load | Rolling Load (N) | |
| International Standard | mm | N | N/m2 | N | N | 10 times | 10000 times |
| FS440 | 500-500-28 | 1960 | 9720 | 5880 | 295 | 1958 | 1566 |
| FS662 | 2950 | 12500 | 8850 | 445 | 2946 | 2356 | |
| FS800 | 3550 | 16100 | 11250 | 536 | 3560 | 2670 | |
| FS1000 | 4450 | 23000 | 13350 | 670 | 4450 | 3560 | |
| FS1250 | 5560 | 33000 | 16680 | 780 | 5560 | 4450 | |
| FS1500 | 6675 | 34500 | 19892 | 1005 | 6675 | 5340 | |
A tests are performed using CISCA's Recommend Test Procedures for Access Floors with the exception of Design Load
Specifications of OA500 raised floor.pdf
OA steel raised floor panel is made of steel plate, top to be SPCC material, bottom to be ST14 material, after pan formed and joined together by resistance welding,the OA60 raised floor panel is coated with epoxy paint, then infilled with light cement.
Installing raised floors involves a systematic approach to ensure stability and functionality. The process includes preparing the subfloor, assembling the support structure, and securing the panels in place.
Ensure the subfloor is clean, level, and free from debris.
Construct the support grid according to the design specifications.
Secure the panels onto the grid, ensuring a snug fit.
Complete the installation with trim and edge pieces for a polished look.
Designed specially for office building
Excellent load performance
Epoxy paint for life time protection
Class A flame spread & smoke developed index
500mm panel mainly for Japan, Korea and China Taiwan
24” / 610mm panel mainly for North America
One of the primary reasons architects and builders are turning to steel raised floors is their unparalleled flexibility. These floors allow for easy customization to meet the specific needs of a space, making them ideal for environments with evolving requirements, such as office spaces.
The space beneath steel raised floors, known as the plenum, serves as a concealed pathway for cables, electrical wiring, and ventilation systems. This not only streamlines the aesthetic appeal of the space but also facilitates easy access for maintenance and upgrades, minimizing downtime.
Steel raised floors contribute to better indoor air quality by promoting efficient air circulation. The plenum acts as a channel for air movement, reducing the risk of stagnant air and fostering a healthier environment, particularly crucial in spaces like data centers.
Whether it's an office, data center, cleanroom, or laboratory, steel raised floors adapt seamlessly to various applications. Their versatility makes them a preferred choice in diverse industries where the need for adaptable and functional spaces is paramount.
In essence, steel raised floors serve as a foundation for innovation in design and functionality, offering a dynamic solution that addresses the evolving demands of modern architecture.
In the fourth part of our series on steel raised floors, we embark on a comparative analysis, pitting these innovative flooring solutions against traditional alternatives. By examining factors such as installation, maintenance, and adaptability, we aim to showcase the distinct advantages that set steel raised floors apart.
When it comes to the installation process, steel raised floors stand out for their speed and efficiency. Traditional flooring methods often involve time-consuming processes, including the curing of adhesives and setting times for materials. In contrast, steel raised floors, with their modular design, can be installed more swiftly, minimizing construction timelines and reducing associated costs.
One of the defining features of steel raised floors is their flexibility and customization capabilities. Traditional flooring methods, such as glued-down carpeting or hardwood, lack the adaptability needed for dynamic environments. Steel raised floors, with their modular panels, allow for easy reconfiguration to meet changing needs, providing a level of versatility unmatched by traditional alternatives.
Maintenance considerations play a crucial role in flooring choices. Traditional flooring, when damaged or requiring maintenance, often involves extensive and intrusive procedures. Steel raised floors, on the other hand, excel in this aspect. The plenum space beneath allows for easy access to underlying infrastructure, simplifying maintenance procedures and reducing downtime.
While the initial cost of steel raised floors may seem higher than some traditional flooring options, it's essential to consider the long-term savings they offer. The efficiency of installation, reduced maintenance costs, and adaptability contribute to a higher return on investment over the life of the building.
In an era where sustainability is a top priority, the environmental impact of flooring choices cannot be overlooked. Traditional flooring materials may involve adhesives and finishes with volatile organic compounds (VOCs), contributing to indoor air pollution. Steel raised floors, with their focus on improved indoor air quality, align with sustainable building practices.
This comparative analysis underscores the distinct advantages of steel raised floors over traditional flooring methods, positioning them as a forward-thinking and practical choice for modern construction and design.
A: 100pieces each type
A:1100-1500pieces,depending on the raised floor type.
A: 30days after receiving the prepayment.
A: Packed in wooden pallet,covered with plastic film.
A: T/T, L/C.
