1. Form a stable cross-linked network: ZDMA can undergo cross-linking reaction with styrene butadiene rubber molecules, forming a three-dimensional cross-linked network structure between rubber molecular chains. This structure enhances the interaction force between rubber molecular chains, limits the relative sliding of molecular chains, thereby improving the overall strength and toughness of rubber, and enabling tires to better maintain structural integrity and reduce wear when subjected to friction and impact from complex mining road conditions.
2. Improve crosslink density: Adding ZDMA can effectively increase the crosslink density of styrene butadiene rubber. Appropriate cross-linking density can give rubber better elasticity and deformation resistance. During tire rolling, it can quickly recover to its original state in the face of frequent compression and stretching, reduce wear caused by plastic deformation, and extend the service life of the tire
Improve heat resistance performance
1. Reduce heat accumulation: Mining machinery tires generate a large amount of heat due to friction during operation, and excessively high temperatures can accelerate rubber aging and wear. ZDMA can improve the thermal conductivity of rubber to a certain extent, allowing the heat generated inside the tire to dissipate faster, reducing the temperature accumulation inside the tire, slowing down the thermal aging rate of the rubber, thereby maintaining the performance of the rubber and indirectly improving the wear resistance of the tire.
2. Enhance thermal stability: ZDMA can improve the thermal stability of styrene butadiene rubber, enabling it to better maintain its structure and properties in high temperature environments. In the high-temperature working environment of mines, tires are not easily softened or degraded by heat, maintaining their mechanical properties such as hardness and strength, thereby improving their wear resistance.
3. Good dispersibility: ZDMA has good dispersibility in styrene butadiene rubber and can be evenly distributed in the rubber matrix, ensuring the uniformity of rubber properties. This helps to achieve the same performance improvement in various parts of the rubber during tire production, avoiding premature wear caused by local performance differences and improving the overall quality and service life of the tire.

Discover the next generation of compounding ingredients designed specifically for Butadiene Styrene Rubber Additives. This advanced additive is the result of extensive research and development, aimed at overcoming the limitations of standard SBR mixes. It actively works to enhance the polymer's network, leading to notable improvements in key physical properties. For industries relying on the consistent performance of Butadiene Styrene Rubber, from tire manufacturing to conveyor belts, this product is a game-changer. It ensures that the rubber compound achieves a higher level of durability and functional reliability.

The primary action of this Butadiene Styrene Rubber Additives is to provide superior protection against ozone cracking and UV radiation, which can prematurely degrade rubber products. Furthermore, it acts as a highly effective processing aid, reducing mixing time and energy consumption without compromising the material's quality. This efficiency translates directly into cost savings and increased production throughput. The application of this additive is straightforward, seamlessly integrating into existing Butadiene Styrene Rubber production lines to deliver a compound with enhanced resilience and a more consistent cure profile.

By selecting our Butadiene Styrene Rubber Additives, you are opting for a smarter, more efficient way to manufacture high-grade rubber goods. It empowers the creation of Butadiene Styrene Rubber products that stand up to the test of time and operational demands. Our commitment is to support your production goals with innovative chemistry that sets new benchmarks for quality. Embrace this essential additive to ensure your Butadiene Styrene Rubber formulations lead the market in performance and longevity.