1.Introduction.
Static electricity issues have generated widespread concern and impact in many fields and applications. In order to solve the problem of static electricity, anti-static floor tiles came into being as a special flooring material. Anti-static floor tiles are made of conductive materials, which have good conductive properties, which can effectively reduce or prevent the generation and accumulation of static electricity. This article will introduce in detail the common materials and characteristics of anti-static floor tiles. 2.Conductive ceramics.
Conductive ceramics are a common anti-static floor tile material. It is characterized by the addition of conductive fillers such as metal powders, carbon fibers, etc., to the ceramic matrix. Conductive ceramics have the following properties:
Conductivity: The addition of conductive fillers makes the conductive ceramics have good conductivity and form a conductive network on the ground. This conductive network can quickly introduce static electricity generated on the ground into the underground grounding system, effectively suppressing the accumulation of static electricity.
Abrasion and corrosion resistance: Conductive ceramics have high wear and corrosion resistance, and are suitable for use in various environments. It is able to withstand long-term high-load use and various chemical attacks and maintain good electrical conductivity.
Structural stability: Conductive ceramics have high structural stability and can maintain stable conductivity in environments with large changes in temperature and humidity. This makes conductive ceramics suitable for a wide range of indoor and outdoor locations.
3.Conductive polymers.
Conductive polymers are another commonly used anti-static floor tile material. It can be achieved by adding a conductive agent to the polymer matrix. Conductive polymers have the following properties:
Plasticity: Conductive polymers have low density and good plasticity, and are easy to process into floor tiles of various shapes and sizes. This allows for a certain degree of design flexibility for conductive polymer floor tiles, which can be adapted to different needs.
Conductivity: Conductive polymers achieve conductive properties by uniformly dispersing conductive agents in a polymer matrix. This conductive property quickly conducts electrostatic charges to the ground, effectively preventing the accumulation of static electricity.
Antistatic properties: Conductive polymer floor tiles have good antistatic properties, which can reduce or prevent the generation and accumulation of static electricity. This makes it widely used in electrostatically sensitive environments.
4.Conductive composites.
Conductive composites are floor tile materials formed by combining the properties of two or more different materials. Properties of conductive composites include:
Material diversity: Conductive composites combine the properties of different materials, having both the conductive properties of conductive materials and the properties of other materials. Conductive composites can be selected in different combinations of materials to meet the needs of different sites and applications.
Process controllability: The preparation process of conductive composites is relatively flexible and can be adjusted and optimized as needed. This makes the manufacturing process of conductive composite floor tiles more controllable, enabling higher performance and stability.
Comprehensive advantages: Conductive composite floor tiles can comprehensively use the advantages of different materials, such as electrical conductivity, wear resistance, corrosion resistance, etc., to provide a more comprehensive anti-static solution.
Summary: The materials of anti-static floor tiles mainly include conductive ceramics, conductive polymers and conductive composite materials. Conductive ceramics have good electrical conductivity and durability, and are suitable for various environments. Conductive polymers have good plasticity and conductivity, and are suitable for places with different needs. Conductive composites combine no.