What is the bonding method between the fiberglass rope core and the rubber layer?

The bonding of the glass fiber core and the rubber layer of the double-sided rubber synchronous belt mostly adopts chemical adhesives or hot vulcanization and other processes. However, these methods often cause problems such as decreased bonding strength and peeling when dealing with extreme working conditions or long-term operation, thus affecting the service life and transmission efficiency of the synchronous belt. In response to this problem, the manufacturer has successfully developed a new bonding technology - nano-enhanced composite bonding system after several years of research and development and testing.

The core of this technology system is to utilize the unique physical and chemical properties of nanomaterials, and evenly disperse them in the adhesive through specific process means to form a composite bonding layer with high strength, high toughness and excellent aging resistance. During the bonding process, nanomaterials can penetrate deeply into the microstructure of the glass fiber core and the rubber layer, forming a strong chemical bond and mechanical locking effect, thereby greatly improving the bonding strength and durability.

In addition to the innovation of bonding technology, the manufacturer has also comprehensively optimized the production process. They introduced advanced automated production lines and sophisticated testing equipment to ensure that each process can be accurately controlled and reduce human errors. At the same time, the stability of the adhesive and the uniformity of the rubber layer are guaranteed by the careful selection of raw materials and strict quality control. These measures not only improve production efficiency, but also significantly improve the overall quality of the product.

The double-sided rubber timing belt using this new bonding technology performs well in all performance indicators. The bonding strength between its glass fiber rope core and the rubber layer has been significantly improved, and it can maintain stable transmission performance even under extreme conditions such as high-speed operation and heavy-load transmission. At the same time, the timing belt also has good wear resistance, corrosion resistance and fatigue resistance, and can be used for a long time in harsh industrial environments without being easily damaged.

These excellent properties have made the double-sided rubber timing belt widely used in many fields. It has become an indispensable key component in the fields of automated production lines, packaging machinery, textile machinery, printing machinery, and automobile manufacturing. User feedback shows that after using this new timing belt, the stability and efficiency of the production line have been significantly improved, and the maintenance cost has been greatly reduced.