The Importance Of Permanent Antistatic Additives For Materials & Electronic Parts




Permanent antistatic additives are commonly used in many areas, such as electronics, electrical appliances, machines, automobiles, textiles, etc. They are mainly used to prevent or reduce the electrostatic charge generated by friction when the material is in contact or separated from other objects, which easily causes fire and explosion due to static electricity accumulation.

Let’s know about the importance of permanent antistatic additives.


Permanent Antistatic Additives are ultra-safe and low cost


Permanent antistatic additives are the safe, low-cost solution for preventing electrostatic discharges and protecting sensitive electronics.

A permanent antistatic additive is a compound that is added to plastics to improve their electrical properties. It improves the resistance of a material to electrostatic discharge (ESD). This can be especially important in industries where ESD can cause damage to sensitive electronic components and systems.

Permanent antistatic additives are used in a variety of applications including automotive parts, medical devices, computers and computer peripherals, consumer electronics, and many more.

The primary benefit of using permanent antistatic additives is that they are extremely safe for use with food contact materials. They have no toxic effects on humans or animals, so you don’t have to worry about any health risks when using them in your products!

Another benefit of using permanent antistatic additives is that they are low cost compared to other methods of preventing ESD!


Permanent Antistatic Additives are safe for the environment


Permanent antistatic additives are chemicals that can be added to a variety of products to make them less likely to build up static electricity. They are added to textiles, plastics, and other materials to make them less likely to attract dust and lint.

The most common permanent antistatic additives are based on silicones or fluorocarbons, which are synthetic compounds that have been proven safe for human health and the environment. These compounds do not bioaccumulate, meaning they do not build up in living organisms or remain in the environment for long periods.

This is important because if these compounds did bioaccumulate, they would pose a threat to wildlife and humans alike. However, this is not a risk because these compounds do not bioaccumulate in living organisms or persist once released into the environment for long periods.

The safety of these compounds has been confirmed by various studies conducted by government agencies around the world including Health Canada (Canada), Food Standards Australia New Zealand (Australia), United States Environmental Protection Agency (US EPA), and European Commission (EU).




Permanent Antistatic Additives have many applications


Not just in electronics, permanent antistatic additives have many applications, including:

Package and printing: Antistatic additives are used in plastic production to make the paperless likely to attract dust and dirt. They also make the paper more flexible, which helps prevent it from tearing when you bend it.

Electric equipment: Permanent antistatic additives can be added to produce products to make them electrically conductive so they don’t build up static electricity when they’re applied to metal surfaces. This helps prevent electrostatic discharge (ESD), which is an important consideration in many industries where ESD can cause damage to sensitive electronic components.

Fabric and textile raw material: Antistatic additives can be added to textiles like clothing, upholstery fabric, carpets, and other fabrics that are prone to attracting dust particles or dirt because of their nature as non-porous surfaces that tend to trap particles inside them rather than letting them fall through onto the floor below them (like porous materials like wood or metal).


Permanent Antistatic Additives have a wide range of safe working temperatures


Many different types of permanent antistatic additives can be used in the production of plastics and rubber. The most common type is silicon dioxide (SiO2). Silicon dioxide is an inert compound and has an extremely low conductivity level. It also has a high boiling point, making it ideal for high-temperature applications.

This additive also has a high melting point, which allows it to be used in plastic compounds at temperatures up to 240°C (464°F). It is non-toxic and will not corrode metal parts or equipment during processing, making it an excellent choice when working with sensitive materials such as electronics or medical devices.


The Reason Why You Should Buy From INCHR


For the past 12 years, INCHR has specialized in anti-static plastic and ESD plastic sheets. Among their proud partners is Huawei, Foxconn. Anti-static compound, a conductive compound, antistatic masterbatch, antistatic sheet, and an antistatic film are some of their goods. Consumer electronics, electrical parts, medical equipment, automobiles, high-speed trains, watercraft, and military applications have all used anti-static plastic materials.

If your application necessitates something even more creative, their experts will collaborate with you quickly to design innovative formulations that will impress your consumers!

They are accredited by quality environmental management certification and quality management system certification and the worldwide environmental system ISO 14000:2004. These certifications give solid quality assurance for their goods’ continuous improvement.


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