BS EN 17117-2:2021 - Rubber- or plastics-coated fabrics. Mechanical test methods under biaxial stress states Determination of the pattern compensation values

Standard Number: BS EN 17117-2:2021

Pages: 24

Released: 2021-08-05

ISBN: 978 0 539 02667 2

Status: Standard

Overview

Introducing the BS EN 17117-2:2021, a comprehensive standard that provides detailed guidelines and methodologies for testing the mechanical properties of rubber- or plastics-coated fabrics under biaxial stress states. This standard is essential for professionals in the textile, automotive, aerospace, and construction industries who require precise and reliable data on the performance of coated fabrics under complex stress conditions.

Key Features

• Comprehensive Testing Methods: The standard outlines a variety of mechanical test methods specifically designed to evaluate the performance of rubber- or plastics-coated fabrics under biaxial stress states. These methods ensure accurate and consistent results, making it easier to compare different materials and products.
• Pattern Compensation Values: One of the unique aspects of this standard is its focus on determining pattern compensation values. These values are crucial for understanding how coated fabrics behave under stress and can help in optimizing the design and manufacturing processes.
• Industry Relevance: The guidelines provided in this standard are applicable across multiple industries, including textiles, automotive, aerospace, and construction. This makes it a versatile and valuable resource for a wide range of professionals.
• Up-to-Date Information: Released on August 5, 2021, this standard incorporates the latest research and technological advancements in the field of coated fabrics. This ensures that users have access to the most current and relevant information.

Detailed Content

The BS EN 17117-2:2021 standard spans 24 pages and is meticulously organized to provide clear and concise information. The content is divided into several sections, each focusing on a specific aspect of mechanical testing under biaxial stress states. Key sections include:

• Introduction: An overview of the scope and purpose of the standard, including its relevance to various industries and applications.
• Test Methods: Detailed descriptions of the mechanical test methods used to evaluate the performance of coated fabrics under biaxial stress states. This section includes step-by-step instructions, equipment requirements, and data analysis techniques.
• Pattern Compensation Values: Guidelines for determining pattern compensation values, including the mathematical formulas and experimental procedures used to calculate these values.
• Data Interpretation: Tips and best practices for interpreting the results of the mechanical tests, including how to identify potential issues and areas for improvement.
• Appendices: Additional resources and reference materials, including tables, charts, and diagrams that provide further context and support for the main content.

Why Choose BS EN 17117-2:2021?

Choosing the BS EN 17117-2:2021 standard means investing in a reliable and authoritative resource that can significantly enhance your understanding of rubber- or plastics-coated fabrics under biaxial stress states. Here are some reasons why this standard is a must-have:

• Accuracy and Consistency: The standardized test methods ensure that your results are accurate and consistent, making it easier to compare different materials and products.
• Enhanced Product Performance: By understanding the mechanical properties of coated fabrics, you can make informed decisions that enhance the performance and durability of your products.
• Industry Compliance: Adhering to this standard helps ensure that your products meet industry regulations and quality standards, which can improve customer satisfaction and trust.
• Research and Development: The detailed guidelines and methodologies provided in this standard can support your research and development efforts, leading to innovative solutions and advancements in the field of coated fabrics.

Conclusion

The BS EN 17117-2:2021 standard is an invaluable resource for professionals working with rubber- or plastics-coated fabrics. Its comprehensive guidelines and methodologies provide the tools needed to accurately assess the mechanical properties of these materials under biaxial stress states. By incorporating this standard into your testing and development processes, you can ensure that your products meet the highest standards of quality and performance.

With its focus on pattern compensation values and its relevance across multiple industries, the BS EN 17117-2:2021 standard is a must-have for anyone involved in the design, manufacturing, or testing of coated fabrics. Stay ahead of the curve and ensure the success of your projects by leveraging the insights and methodologies provided in this essential standard.

BS EN 17117-2:2021

This standard BS EN 17117-2:2021 Rubber- or plastics-coated fabrics. Mechanical test methods under biaxial stress states is classified in these ICS categories:

• 59.080.40 Coated fabrics

This document describes methods for the determination of compensation values for orthotropic coated fabrics (different properties along ideally perpendicular directions, such as the weft and warp yarns for woven based coated fabrics, or along the courses and wales of knitted based coated fabrics) for determining cutting patterns.

NOTE The final interpretation and the determination of the compensation values remains the responsibility of the project engineer.

Annex C describes a method to determine comparable measures of extensibility along ideally perpendicular directions of coated fabrics. The comparable measures of extensibility can be used by design engineers to assess the extensibility of a coated fabric by comparison with other coated fabrics. In this way, they can help to interpret results of compensation tests. Moreover, they can be used by material suppliers to measure the consistency of extensibility along perpendicular directions of a coated fabric from batch to batch.