Sparks and cracking sounds may be produced in our daily lives when we put on and remove sweaters. This is because sweaters are made of wool, which can crack easily. If we give our hair a vigorous rub during the winter, it will fall out in clumps. Static electricity can be seen here. Today, we at Titanflor will walk you through the process of understanding the classification of anti-static raised floors, as well as the characteristics of anti-static raised floors and the applications of anti-static raised floors.

1. the raised floor of the OA network

There are a few different names for the OA network anti-static raised floor, including bare finished raised floor and office raised floor. It is made entirely out of steel, and each of its four corners has its own independent support. Electrostatic spraying of conductive epoxy resin is used to treat the floor's surface, and foamed cement is used to fill the cavity inside the floor. It has a high load capacity, suppresses noise, is resistant to surface wear, and is resistant to dirt. Office buildings, computer rooms, electric classrooms, and other types of buildings frequently make use of them.

2. Anti-static raised floor made of steel

PVC and ceramics are typically used to cover the majority of an anti-static raised floor, with the PVC veneer being the product of specialized processing technology. Between the PVC particle interfaces, a conductive electrostatic network is formed, which ultimately results in an anti-static property being permanently possessed by the material. The ceramic covering has the appearance of marble, and it works well as a decorative element. It is appropriate for locations that require purification in addition to anti-static properties, such as computer rooms, clean workshops, and program-controlled computer rooms.

3. Calcium sulfate floor

The non-toxic and unbleached fiber that is used as the reinforcement material in calcium sulfate anti-static raised floor is combined with the solidified calcium sulfate crystals that are made through a process called pulse pressing. It is incredibly strong, flame-resistant, and wear-resistant all at the same time. It is lovely in addition to being kind to the environment. Therefore, we utilize them frequently in settings such as banks, data centers, offices, computer rooms, and other locations with high levels of humidity.

4. Raised floor with a wood core

The core of an anti-static raised floor with a wood core is made of chipboard. It is also inexpensive, incredibly lightweight, and impervious to moisture. We make frequent use of them in spaces ranging from small to medium sized computer rooms.

5. Aluminum Panel

Smelting and die-casting the resulting aluminum alloy material results in the production of an anti-static raised floor made of aluminum. It possesses high strength, a superior resistance to fire, and the ability to withstand water well. There is potential for recycling in the board base. As a result, they are frequently utilized in the power industry.

6. Different kinds of raised floors

In addition, there are some anti-static raised floors that are used for special events, such as anti-static perforated panels, glass raised floors, anti-static PVC floors, and other similar options.

• Item 3 and item 4 both come with corresponding templates

• We requested that TUV supply us with blank templates, which we would then complete ourselves

• After supplying a significant amount of data, it is time for the content factory review

• The exporter is required to provide a factory inspection report as part of the SABER certification process

• We made the decision to have the factory undergo inspection by the TUV agency

• You have the option of selecting an on-site factory inspection from TUV, or you can select a content factory inspection

• We decided to check out the content factory

• During the audit of the content factory, we are required to hand over a great deal of documentation, and because we have to do so one piece of documentation at a time, the process is quite laborious

• Regarding the following list of documents that need to be prepared, please refer to it:

The content audit won't take place until after the materials are almost completely finished. The process of inspecting the content is also extremely stringent. The process of inspecting a factory is almost identical to the process described above, beginning with the incoming materials and ending in the finished product warehouse. However, each link in the process needs to be demonstrated individually, and corresponding certificates will also need to be provided. This is a fairly laborious process, but as long as the procedures are followed to the letter, there shouldn't be any issues; in fact, it can be finished in almost an hour.