BS ISO 21713:2020 - Fine Ceramics Elastic Modulus Determination

Discover the cutting-edge standard for evaluating the elastic modulus of fine ceramics at high temperatures with the BS ISO 21713:2020. This comprehensive document is an essential resource for professionals in the field of advanced ceramics, providing a detailed methodology for assessing the mechanical properties of ceramics using the innovative thin wall C-ring method.

Overview

Released on April 1, 2020, this standard is a pivotal addition to the world of advanced technical ceramics. With a total of 18 pages, it offers a thorough exploration of the procedures and principles necessary to accurately determine the elastic modulus of ceramics under high-temperature conditions. The document is identified by the ISBN 978 0 580 95988 2, ensuring its authenticity and accessibility for professionals and researchers alike.

Key Features

• Standard Number: BS ISO 21713:2020
• Pages: 18
• Release Date: 2020-04-01
• ISBN: 978 0 580 95988 2
• Status: Standard

Why Choose BS ISO 21713:2020?

The BS ISO 21713:2020 standard is indispensable for those involved in the research, development, and application of fine ceramics. It provides a reliable and standardized method for determining the elastic modulus, a critical property that influences the performance and durability of ceramic materials in high-temperature environments. By adhering to this standard, professionals can ensure the accuracy and consistency of their measurements, leading to improved material performance and innovation in ceramic applications.

Advanced Methodology

The thin wall C-ring method outlined in this standard is a sophisticated technique that allows for precise measurement of the elastic modulus. This method is particularly advantageous for its ability to handle the unique challenges posed by high-temperature testing, ensuring that the results are both accurate and reproducible. The standard provides detailed instructions on specimen preparation, testing procedures, and data analysis, making it a comprehensive guide for practitioners in the field.

Applications and Benefits

The insights gained from using the BS ISO 21713:2020 standard are invaluable across a range of industries, including aerospace, automotive, electronics, and energy. By understanding the elastic properties of ceramics at elevated temperatures, engineers and scientists can design more efficient and reliable components, leading to advancements in technology and materials science.

Furthermore, the standard supports quality assurance and control processes, enabling manufacturers to meet stringent performance criteria and regulatory requirements. This not only enhances product reliability but also fosters trust and confidence among customers and stakeholders.

Conclusion

In the ever-evolving field of advanced ceramics, the BS ISO 21713:2020 standard stands as a beacon of precision and reliability. Its detailed methodology and comprehensive guidelines make it an essential tool for anyone involved in the study or application of fine ceramics. By leveraging this standard, professionals can unlock new possibilities in material performance and innovation, driving progress in a variety of high-tech industries.

Embrace the future of ceramics testing with the BS ISO 21713:2020 and ensure your work is at the forefront of technological advancement.

BS ISO 21713:2020

This standard BS ISO 21713:2020 Fine ceramics (advanced ceramics, advanced technical ceramics). Determination of elastic modulus of ceramics at high temperature by thin wall C-ring method is classified in these ICS categories:

• 81.060.30 Advanced ceramics

This document specifies the determination of elastic modulus of ceramics at high temperatures up to 2 100 °C by using the thin wall relative C-ring method. Procedures for test piece preparation, test modes, heat rate, load rates, data collection and reporting are given.

This document applies primarily to ceramic materials including monolithic fine ceramics, refractory materials, whisker and particulate-reinforced ceramic composites. This method is not applicable to super plastic ceramics or ceramics with high creep rate. This test method can be used for material research, quality control and characterization and design data generation purposes.