- Health 57
- household goods 55
- Equipment Manufacturing 52
- Textile & Loom 47
- Civil and Construction 38
- Products based on NanoCoating 28
- Analytical Systems 25
- Energy & Petroleum 24
- Automotive and Transportation 21
- Nanomaterials 19
- Paint and Coating 18
- Drug and Medical 17
- Nano Composite 13
- Products based on Nanofiber 12
- Plasma 9
- Imported 7
- Optics, Electronic & IT 5
- Water and Environment 4
- Agriculture and Food Industry 2
Plasma technology has many useful applications. Plasma applications extend into a very large amount of industries such as automotive, electronics, medical, textiles, appliances and material science. Since, plasma technology is a relatively new emerging field, new plasma applications are still being discovered and researched. Most useful plasma applications revolve around the science of surface modification. Adhesion science and plasma technology go hand in hand. The goal of most plasma treatments is to alter surface characteristics to either raise or lower a surface’s ability to adhere. Essentially, the higher the material’s surface energy, the stronger that surface’s adherence capabilities are. A surface will undergo an adhesion treatment to allow paints and glues to adhere to it more effectively. This is especially useful when trying to paint certain plastics that normally have a very low surface energy.
This product is particularly used to enhance adhesion and paint ability of polymeric surfaces.
It is known as plasma-treated polymeric surfaces consist of nanometric roughness. By adding plasma to the surface of polymer, its roughness increases by 11 nm as well as its contact angle reduces by 40%. According to ISO 2409 Cross-Cut test, paint adhesion rate on the surface of polymer increases from 4B to 5B after adding plasma as well.
Nano-scale roughness on the polymer surface causes increase in paint adhesion on the surface.
It is recommended to paint this product immediately after plasma treating.
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Standard Date : 2017/07/08
Expire Date : 2018/07/08