PD CEN/TS 17510:2020 - Materials Obtained from End-of-Life Tyres

Discover the cutting-edge standard PD CEN/TS 17510:2020, a comprehensive guide dedicated to the determination of the specific surface area of powders derived from end-of-life tyres. This standard employs a sophisticated method based on krypton adsorption, ensuring precise and reliable results for your material analysis needs.

Overview of the Standard

Released on October 14, 2020, this standard is a pivotal resource for professionals in the field of material science and recycling. With a total of 14 pages, it provides detailed methodologies and insights into the measurement of specific surface areas, a critical parameter in understanding the properties and potential applications of recycled tyre materials.

Key Features:

• Standard Number: PD CEN/TS 17510:2020
• ISBN: 978 0 539 13014 0
• Status: Standard

Why Choose This Standard?

The PD CEN/TS 17510:2020 standard is essential for industries and researchers focused on sustainable practices and the innovative use of recycled materials. By utilizing the krypton adsorption method, this standard offers a high level of accuracy in determining the specific surface area, which is crucial for:

• Enhancing the performance of recycled materials in various applications.
• Optimizing the processing and quality control of tyre-derived powders.
• Facilitating research and development in material science.

Applications and Benefits

Understanding the specific surface area of powders obtained from end-of-life tyres is vital for several applications, including:

• Rubber and Plastics Industry: Improve the mechanical properties and durability of products by incorporating tyre-derived powders with known surface characteristics.
• Construction Materials: Utilize recycled tyre materials in concrete and asphalt to enhance strength and sustainability.
• Environmental Engineering: Develop innovative solutions for waste management and pollution control by leveraging the unique properties of recycled tyre materials.

By adhering to the PD CEN/TS 17510:2020 standard, organizations can ensure that their processes align with industry best practices, leading to improved product quality and environmental outcomes.

Technical Insights

The method based on krypton adsorption is a state-of-the-art technique that provides several advantages over traditional methods:

• High Sensitivity: Krypton adsorption allows for the detection of minute surface area changes, making it ideal for fine powders.
• Precision: The method offers consistent and repeatable results, crucial for quality assurance and research purposes.
• Versatility: Suitable for a wide range of materials, this method can be adapted to various industrial and research applications.

Conclusion

The PD CEN/TS 17510:2020 standard is an invaluable tool for professionals seeking to harness the potential of recycled tyre materials. By providing a reliable method for determining the specific surface area of powders, this standard supports innovation and sustainability in multiple industries. Whether you are involved in manufacturing, research, or environmental management, this standard will help you achieve your goals with precision and confidence.

Embrace the future of material science with the PD CEN/TS 17510:2020 standard and unlock new possibilities for recycled tyre materials.

PD CEN/TS 17510:2020

This standard PD CEN/TS 17510:2020 Materials obtained from end-of-life tyres. Determination of the specific surface area of powders. Method based on krypton adsorption is classified in these ICS categories:

• 13.030.50 Recycling
• 83.160.01 Tyres in general

This document specifies a method for the determination of low specific surface area of powders ELTs rubber by measuring the amount of physically adsorbed krypton gas and applying the theoretical multipoint Brunauer, Emmett and Teller (BET) method.

This document defines a specific method for powders taking into account that, in order to obtain an accurate value of specific surface area, a representative sample of the material to be tested is taken according to the principle that every particle of the sample that represents the lot have an equal probability of being included in the sample.