What is the wear resistance performance of the mixed base carbon strip under different friction media?

The wear resistance of the mixed base carbon strip under different friction media mainly depends on its material composition, production process and specific application environment. The following is a detailed analysis of the wear resistance of the mixed base carbon strip under different friction media:

First, the basic characteristics of the mixed base carbon belt

Mixed base carbon strips, also known as wax/resin mixed base carbon strips, combine the advantages of wax - and resin-based carbon strips. It usually contains a high percentage of resin composition, which gives it a high melting point and excellent scratch resistance and chemical resistance. In addition, the mixed base carbon strip also has good friction resistance and can meet a variety of printing needs.

Second, the performance of different friction media

1.Paper media:

When printing paper media (such as ordinary paper, coated paper, etc.), the mixed base carbon strip can show good friction resistance. Thanks to the presence of resin components, printed graphics and text have high scratch resistance and can remain clear even under prolonged use or friction.

2.Plastic media:

For plastic media (such as polyethylene film, polypropylene film, etc.), the friction resistance of the mixed base carbon strip is also excellent. The surface of these media is relatively smooth, and the high adhesion and friction resistance of the mixed base carbon strip can ensure that the printed content is durable and clear on the plastic media, and is not easy to fall off or blur.

3.Metallic media:

When printing on metal media, the friction resistance of the mixed base carbon strip will be challenged. The metal surface is relatively hard and smooth, but the mixed base carbon strip can still resist wear to a certain extent because of its high melting point and good adhesion. However, under extreme conditions of use (such as frequent friction, scraping, etc.), it may be necessary to consider using a more abrasive type of carbon strip.

4.Special media:

For some special media (such as glass, ceramics, etc.), the friction resistance of the mixed base carbon strip may need to be evaluated according to the specific media characteristics and printing requirements. These media surfaces may have special physical and chemical properties, so special attention needs to be paid to their compatibility and printing effect when using mixed base carbon strips.

Third,Influencing factorsMaterial composition: The ratio of resin and wax in the mixed base carbon strip will directly affect its friction resistance. The higher the resin content, the better the friction resistance.

Production process: The production process of the carbon strip will also affect its friction resistance. For example, factors such as ink formulation and coating uniformity will affect the friction resistance of the final product.

Application environment: Factors such as temperature, humidity and type of friction medium in the use environment will also affect the friction resistance of the mixed base carbon strip.

Fourth,Conclusion

In summary, the mixed base carbon strip shows good friction resistance under different friction media. However, the specific performance can be affected by a variety of factors such as material composition, production process, and application environment. When selecting the mixed base carbon strip, it is necessary to comprehensively consider the actual printing needs and the use environment to ensure the best printing effect and service life. At the same time, it is also necessary to pay attention to the maintenance and maintenance of the printing equipment during use to extend the service life of the carbon belt and printing equipment.