Static electricity in the air is everywhere, and it runs to the machine, to the clothes, and more to the fabrics that are being processed and finished. As a result, the fabrics cannot be adsorbed on the setting machine, and the rolling and falling of the fabrics become inoperable. , especially polyester fabrics, because of poor water absorption, static electricity is more likely to stick there and not go. How to make static electricity go fast and bring efficiency back? The fast conductivity of antistatic agent PK has a short half-life for static charge, and the half-life is reduced from 60S to <1S. It can quickly export the static electricity generated by the friction of the polyester fabric surface on the machine and restore its lovely appearance.
Polyester is definitely a mixed bag. On the plus side, it's washable, wrinkle-resistant, and retains shape. As for the minus side, it's poorly hygroscopic, prone to static electricity, and sticky to dust. We keep its advantages while sorting out its disadvantages, and that's perfect. The polyester fabric on the setting machine is rubbed on the high-speed rotating reel, and static electricity becomes even more unscrupulous. The appearance of the antistatic agent PK reduces the half-life of the electrostatic charge from 60S to <1S, and quickly exports the static electricity generated by the friction of the polyester fabric surface on the machine.
There is no best in this world, only the right is perfect. Use antistatic agent PK to solve the static electricity of polyester fabric, and eliminate static electricity by inference on the setting machine, which has changed the defects of polyester fabric that is easy to be electrostatically charged and easy to stick to dust, and also gives it more usability. Anti-wrinkle, shape-preserving areas of application add a strong touch of color. With the help of PK's finishing, polyester fabric is no longer the object of static electricity, and it can better serve people in the textile world. Isn't this a fortunate thing?
Take polyester antistatic finishing as an example:
different application processes
Impregnation method: antistatic agent 1.0-2.0% (o.w.f.); bath ratio 1:10, immersion at room temperature for 15-20min→dehydration→drying→setting (190℃*30sec)
Padding method: antistatic agent 15-30g/L; padding working fluid (rolling allowance 70-80%) → drying → setting (190℃*30sec)
Application object:
It is used for antistatic finishing of synthetic fiber fabrics such as polyester, acrylic, nylon and vinylon. The treated fiber surface has good hygroscopic conductivity, and has little influence on color light and color fastness.
The product is green and environmentally friendly, and the finished fabric has good hydrophilicity, good antistatic effect, and good dust resistance, making it comfortable to wear; it has little effect on color light and color fastness.