Wrong stacking method of polyester hot melt yarn

Polyester hot melt yarn is a material widely used in textile and industrial fields.
Its excellent melting point characteristics make it very popular in heat welding, sewing reinforcement and other industrial applications. However, if polyester hot melt yarn is not stacked correctly, it may cause material performance degradation, damage or waste. This article will explore some incorrect polyester hot melt yarn stacking methods and their potential risks.

Wrong stacking method
Random stacking:
Randomly stacking polyester hot melt without considering its shape and size may cause the wire to be entangled, twisted or broken

Random stacking may also cause the wire to be exposed to harsh environments such as humidity, high temperature or direct sunlight, all of which may affect the performance of polyester hot melt

Heavy pressure stacking:
Piling heavy objects on polyester hot melt may cause the wire to deform or break
Heavy pressure may also increase friction between the wires, causing wear and damage

Improper storage environment:
Storing polyester hot melt in an environment with high temperature, high humidity or chemically corrosive gases may cause the material performance to deteriorate
A humid environment may cause the wire to absorb moisture, affecting its melting point and bonding properties

Incorrect winding:
If the polyester hot melt is not wound correctly, it may cause the wire to break or be uneven during use
Wrong winding method may also cause the wire to be damaged during storage and transportation

Potential risks
Degradation of performance:
Wrong stacking method may cause degradation of the physical and chemical properties of polyester hot melt yarn
Degradation of performance may affect the application effect of the material in the final product, such as bonding strength, durability, etc.

Material damage:
Wrong stacking may cause physical damage to polyester hot melt yarn, such as breakage, twisting or wear
Damaged yarn may be unusable, resulting in material waste and production interruption

Safety risks:
Wrong stacking method may cause safety hazards in the working environment, such as slipping, tripping or being crushed by heavy objects
Inappropriate storage environment may cause chemical reactions, produce harmful gases, and pose a threat to the health of operators

Correct stacking method
In order to ensure the quality and performance of polyester hot melt yarn, the correct stacking method is essential. Here are some suggestions:

Use proper winding and packaging:
Make sure the polyester thermal fuse is properly wound and protected with appropriate packaging materials
The packaging should be able to prevent the intrusion of moisture and dust

Choose a suitable storage environment:
The environment where the polyester thermal fuse is stored should be dry, clean, well ventilated, and at a moderate temperature
Avoid storing the polyester thermal fuse in direct sunlight or high temperature environments

Avoid heavy pressure and improper stacking:
Avoid stacking heavy objects on the polyester thermal fuse or using improper stacking methods
Maintain the shape and structure of the yarn and avoid winding and twisting
By following these correct stacking methods, the quality and performance of the polyester thermal fuse can be ensured, so that it can play its best effect in various applications.

Conclusion
Polyester thermal fuse is an important industrial material, and its correct stacking and storage are essential to maintain its performance and avoid potential risks. By avoiding the above incorrect stacking methods and taking appropriate storage measures, the quality and reliability of polyester thermal fuse can be ensured, so that it can play its best effect in various applications