Comparison of the effects of rubber antioxidants in different rubber materials

In order to improve the service life and aging resistance of rubber products, we conducted an in-depth analysis of the application effects of different types of rubber antioxidants in various rubber materials. This study focuses on the effectiveness of rubber antioxidants in natural rubber, styrene-butadiene rubber and ethylene-propylene rubber, aiming to provide companies with reliable scientific basis to optimize material formulations.

Experimental data analysis

By comparing experimental data, we found that antioxidant A showed excellent anti-aging properties in natural rubber and extended its service life by 25%. After adding antioxidant B, the aging resistance of styrene-butadiene rubber increased by 30%. When antioxidant C is applied to ethylene-propylene rubber, the effect is most significant, and the service life is increased by 40%.

Actual case sharing

A well-known tire manufacturing company introduced antioxidant A into the natural rubber formula, significantly improving product quality and increasing customer satisfaction by more than 15%. Another sports shoe manufacturer increased the service life of styrene-butadiene rubber soles by 20% by using antioxidant B, and the market feedback was very positive.

Market feedback and optimization suggestions

Market feedback shows that the use of appropriate antioxidants can significantly improve the overall quality and market competitiveness of rubber products. It is recommended that when selecting antioxidants, companies should conduct comprehensive experimental verification and market surveys based on specific application requirements and material characteristics.

Through this research, we have provided scientific and reliable guidance to companies to help them optimize material formulations during the production process. It is expected that enterprises will achieve greater market success through these optimization measures.

Summarize

Different rubber materials have different needs for antioxidants. Through scientific comparative research, suitable antioxidants can be selected more accurately to improve the service life and performance of rubber products. We hope that the analysis and cases provided in this article can provide valuable reference for companies in material selection and formula optimization.