BS EN ISO 18610:2021 - Fine Ceramics Standard

Discover the cutting-edge standard for fine ceramics with the BS EN ISO 18610:2021. This comprehensive document is essential for professionals and researchers working with advanced ceramics, providing detailed guidelines on the mechanical properties of ceramic composites at ambient temperature in air atmospheric pressure. With a focus on the determination of elastic properties using ultrasonic techniques, this standard is a must-have for anyone involved in the field of advanced technical ceramics.

Key Features

• Standard Number: BS EN ISO 18610:2021
• Pages: 28
• Release Date: February 3, 2021
• ISBN: 978 0 539 14388 1
• Status: Standard

Overview

The BS EN ISO 18610:2021 standard is a pivotal document for the ceramics industry, focusing on the mechanical properties of ceramic composites. It provides a detailed methodology for determining the elastic properties of these materials using ultrasonic techniques. This standard is crucial for ensuring the quality and performance of ceramic composites in various applications, from industrial to technological uses.

Why Choose BS EN ISO 18610:2021?

Advanced ceramics are at the forefront of material science, offering unparalleled performance in terms of strength, durability, and thermal resistance. The BS EN ISO 18610:2021 standard is designed to help you harness the full potential of these materials by providing a reliable method for assessing their mechanical properties. Whether you are involved in research, development, or production, this standard will guide you in achieving the highest quality outcomes.

Benefits of Using Ultrasonic Techniques

Ultrasonic techniques are a non-destructive method for evaluating the elastic properties of materials. This approach offers several advantages:

• Accuracy: Provides precise measurements of elastic properties, ensuring reliable data for analysis and decision-making.
• Efficiency: Allows for rapid assessment of materials without the need for extensive sample preparation.
• Non-destructive: Preserves the integrity of the sample, allowing for further testing or use.

Applications

The BS EN ISO 18610:2021 standard is applicable across a wide range of industries and applications, including:

• Aerospace: Ensuring the reliability and performance of ceramic components in high-stress environments.
• Automotive: Enhancing the durability and efficiency of ceramic parts in vehicles.
• Electronics: Improving the thermal management and performance of electronic devices.
• Medical: Supporting the development of advanced ceramic materials for medical implants and devices.

Who Should Use This Standard?

This standard is ideal for:

• Material Scientists: Conducting research and development in the field of advanced ceramics.
• Quality Assurance Professionals: Ensuring the compliance and performance of ceramic products.
• Manufacturers: Producing high-quality ceramic components for various industries.
• Engineers: Designing and implementing ceramic solutions in technical applications.

Conclusion

The BS EN ISO 18610:2021 standard is an invaluable resource for anyone involved in the field of fine ceramics. By providing a clear and reliable method for determining the mechanical properties of ceramic composites, this standard helps ensure the quality and performance of these advanced materials. Whether you are a researcher, manufacturer, or engineer, this standard will support your efforts in achieving excellence in the world of advanced ceramics.

Embrace the future of material science with the BS EN ISO 18610:2021 standard and unlock the full potential of fine ceramics in your projects and applications.

BS EN ISO 18610:2021

This standard BS EN ISO 18610:2021 Fine ceramics (advanced ceramics, advanced technical ceramics). Mechanical properties of ceramic composites at ambient temperature in air atmospheric pressure. Determination of elastic properties by ultrasonic technique is classified in these ICS categories:

• 81.060.30 Advanced ceramics

This document specifies an ultrasonic method to determine the components of the elasticity tensor of ceramic matrix composite materials at room temperature. Young's moduli shear moduli and Poisson coefficients, can be determined from the components of the elasticity tensor.

This document applies to ceramic matrix composites with a continuous fibre reinforcement: unidirectional (1D), bidirectional (2D), and tridirectional (×D, with 2 < × ≤ 3) which have at least orthotropic symmetry, and whose material symmetry axes are known.

This method is applicable only when the ultrasonic wavelength used is larger than the thickness of the representative elementary volume, thus imposing an upper limit to the frequency range of the transducers used.

NOTE Properties obtained by this method might not be comparable with moduli obtained by ISO 15733, ISO 20504 and EN 12289.