With the increased focus on sustainability throughout the value chain, recycling of end-of-life components has become increasingly important. One product with particular attention is end-of-life tires (ELT), as these robust products are seen to be difficult to recycle. Recent advances in pyrolysis technology have allowed the development of valuable secondary raw materials from ELT supporting the circular economy.

In 2021, Birla Carbon launched the Continua™ brand and its associated Sustainable Carbonaceous Materials products or SCM. Continua™ Sustainable Carbonaceous Material is a new family of materials, distinct from Carbon Black and, therefore, bears specific regulatory obligations.

We at Birla Carbon understand the challenges you are facing in formulating a new paint system. You might be looking into new raw materials, exploring new systems, or looking for a more sustainable solution to offer. Doing this while maintaining cost & quality standards. We are excited to share the strength with you and help simplify this process by using the logic of the performance triangle.

For this follow-up article, the design of carbon black for high jetness applications will be presented. This will include important features of carbon black and the benefits delivered. We will demonstrate how carbon black products can be engineered to deliver a specific balance of performance and dispersibility to satisfy formulator compounding constraints as well as end-user color requirements.

The development of tire tread compounds is a challenging process that necessitates a careful balancing act between opposing performance parameters including rolling resistance, traction, and tread wear. Rubber compounders have a variety of obstacles to overcome in their quest to produce high-performance tire treads for both commercial and passenger vehicles that satisfy drivers' varied needs and industry requirements.

High surface area carbon blacks offer a deep black color, an appealing blue tone, and excellent surface finish. As a result, this class of carbon blacks has been gaining popularity for high value plastics applications, including automotive interior and exterior (surfaces or components, etc.), household appliances, and consumer electronics.

The development of elastomeric anti-vibration systems (AVS) in automotive applications plays a crucial role in improving the overall driving experience.

The automotive industry has undergone significant technological advancements in recent years, with a shift towards more efficient, environmentally friendly vehicles. One key aspect of this evolution lies in the development of anti-vibration systems (AVS) which play a crucial role in improving the overall driving experience.

When people think about lithium-ion batteries, they think about how these devices deliver electricity. Certainly, the materials used to power them are inherently electrically conductive, right? As it turns out, it is nowhere near as much as you might expect.