BS ISO 17168-3:2025: Fine Ceramics Air-Purification Performance Standard

Discover the cutting-edge standard for evaluating the air-purification performance of semiconducting photocatalytic materials with the BS ISO 17168-3:2025. This comprehensive standard is essential for professionals in the field of advanced ceramics, providing a detailed methodology for assessing the removal of toluene under indoor lighting conditions.

Overview

The BS ISO 17168-3:2025 is a pivotal document for those involved in the development and application of fine ceramics, also known as advanced ceramics or advanced technical ceramics. This standard outlines a precise test method to evaluate the air-purification capabilities of semiconducting photocatalytic materials, specifically focusing on the removal of toluene, a common indoor air pollutant.

Key Features

• Standard Number: BS ISO 17168-3:2025
• Pages: 20
• Release Date: November 11, 2025
• ISBN: 978 0 539 31104 4
• Status: Standard

Why Choose BS ISO 17168-3:2025?

This standard is indispensable for manufacturers, researchers, and quality assurance professionals who are committed to ensuring the highest levels of air quality through innovative ceramic technologies. By adhering to the guidelines set forth in this document, you can confidently assess the effectiveness of your materials in purifying air, thereby enhancing the health and safety of indoor environments.

Comprehensive Testing Methodology

The BS ISO 17168-3:2025 provides a detailed testing framework that is both rigorous and reliable. It ensures that the semiconducting photocatalytic materials are evaluated under realistic indoor lighting conditions, offering a true reflection of their performance in everyday settings. This is crucial for developing materials that are not only effective in laboratory conditions but also in real-world applications.

Focus on Toluene Removal

Toluene is a volatile organic compound (VOC) commonly found in indoor environments, often emanating from paints, adhesives, and cleaning agents. Prolonged exposure to toluene can have adverse health effects, making its removal from indoor air a priority. The BS ISO 17168-3:2025 standard specifically addresses this concern, providing a targeted approach to evaluating the removal efficiency of toluene by advanced ceramic materials.

Benefits of Implementing the Standard

• Enhanced Air Quality: By following the standard, you can ensure that your materials effectively reduce harmful pollutants, contributing to healthier indoor environments.
• Industry Compliance: Stay ahead of regulatory requirements and industry standards by implementing the latest testing methodologies.
• Innovation and Development: Use the insights gained from the standard to drive innovation in material development, leading to more effective and efficient air-purification solutions.

Who Should Use This Standard?

The BS ISO 17168-3:2025 is designed for a wide range of professionals, including:

• Material Scientists and Engineers
• Quality Assurance and Control Specialists
• Environmental Health and Safety Officers
• Manufacturers of Advanced Ceramics
• Research and Development Teams

Conclusion

Embrace the future of air purification with the BS ISO 17168-3:2025 standard. By integrating this standard into your processes, you can ensure that your semiconducting photocatalytic materials meet the highest benchmarks for air-purification performance. This not only enhances the quality of your products but also contributes to a healthier and safer indoor environment for all.

Stay at the forefront of ceramic technology and air quality management by adopting the BS ISO 17168-3:2025 standard today.

BS ISO 17168-3:2025

This standard BS ISO 17168-3:2025 Fine ceramics (advanced ceramics, advanced technical ceramics) — Test method for air-purification performance of semiconducting photocatalytic materials under indoor lighting environment is classified in these ICS categories:

• 81.060.30 Advanced ceramics