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Electric Conductive Casters vs. Anti-Static Casters: Functions and Differences

Conductive casters and anti-static casters play vital roles in controlling static electricity and preventing electrostatic discharge (ESD) in various industrial settings. These two types of casters have distinct functions and advantages. In this article, we'll delve into their characteristics and differences.

Functions of Electric Conductive Casters

1. Static Electricity Conductivity: Conductive casters have high conductivity, allowing them to effectively dissipate static charges to the ground, preventing the accumulation of static electricity.

2. Protection Against ESD Damage: These casters are often used to protect electrostatic-sensitive equipment and products, such as electronic components and semiconductors.

3. High-Performance Environments: Conductive casters are widely employed in environments where high conductivity is crucial, such as laboratories, cleanrooms, and areas with hazardous gases.

Functions of Anti-Static Casters

1. Static Electricity Prevention: Anti-static casters are designed to reduce static electricity build-up, although their conductivity is generally lower compared to conductive casters.

2. Mitigation of ESD Risk: They help minimize the risk of electrostatic discharge, safeguarding equipment from ESD-related damage.

3. Safety Considerations: Anti-static casters are commonly used in environments where static electricity control is necessary but extremely high conductivity is not required, such as medical facilities and offices.

Differences Between Electric Conductive Casters and Anti-Static Casters

1. Conductivity: Conductive casters have high conductivity, ensuring effective static charge dissipation. In contrast, anti-static casters have lower conductivity but still reduce the risk of static buildup and ESD.

2. Application Areas: Conductive casters are primarily used in highly sensitive environments where stringent static control is essential. Anti-static casters find their application in less critical environments where moderate static control suffices.

3. Conductivity Standards: Conductive casters typically meet higher conductivity standards, while anti-static casters meet lower standards, achieving the required level of static control.

In summary, conductive casters and anti-static casters serve distinct purposes and can be selected based on specific application requirements. Conductive casters are suitable for environments demanding the highest level of static control, while anti-static casters provide effective static control in less critical settings. Understanding their differences allows for the appropriate choice based on your needs.