BS EN ISO 23153-1:2020 - Plastics: Polyetheretherketone (PEEK) Moulding and Extrusion Materials

Discover the comprehensive standard that sets the benchmark for Polyetheretherketone (PEEK) moulding and extrusion materials. The BS EN ISO 23153-1:2020 is an essential document for professionals in the plastics industry, providing a detailed designation system and the basis for specifications of PEEK materials.

Overview

Released on March 25, 2020, this standard is a crucial resource for manufacturers, engineers, and quality assurance professionals who work with PEEK materials. With a total of 16 pages, it offers a concise yet thorough guide to understanding and implementing the specifications necessary for high-quality PEEK products.

Key Features

• Standard Number: BS EN ISO 23153-1:2020
• ISBN: 978 0 539 01463 1
• Status: Standard

Why Choose PEEK?

Polyetheretherketone (PEEK) is a high-performance engineering thermoplastic known for its exceptional mechanical properties, chemical resistance, and thermal stability. It is widely used in demanding applications across various industries, including aerospace, automotive, medical, and electronics. PEEK's unique properties make it an ideal choice for components that require high strength, low weight, and resistance to harsh environments.

Applications of PEEK

PEEK is utilized in a variety of applications due to its versatility and durability. Some common uses include:

• Aerospace: Components such as brackets, clamps, and housings that require lightweight and high-strength materials.
• Automotive: Engine components, transmission parts, and other under-the-hood applications where high temperature and chemical resistance are critical.
• Medical: Surgical instruments, dental devices, and implants due to its biocompatibility and sterilization capabilities.
• Electronics: Insulators, connectors, and other components that benefit from PEEK's excellent electrical properties.

Benefits of BS EN ISO 23153-1:2020

This standard provides a structured approach to the classification and specification of PEEK materials, ensuring consistency and quality across the industry. By adhering to the guidelines set forth in this document, manufacturers can achieve:

• Improved Product Quality: Ensure that PEEK materials meet the necessary performance criteria for their intended applications.
• Enhanced Reliability: Consistent material properties lead to more reliable and durable products.
• Streamlined Production: Standardized specifications simplify the manufacturing process and reduce the risk of errors.
• Regulatory Compliance: Meet industry standards and regulatory requirements with confidence.

Understanding the Designation System

The BS EN ISO 23153-1:2020 standard introduces a comprehensive designation system for PEEK materials. This system categorizes materials based on their properties and intended applications, providing a clear framework for selecting the right material for specific needs. Key factors considered in the designation system include:

• Mechanical Properties: Tensile strength, modulus of elasticity, and impact resistance.
• Thermal Properties: Glass transition temperature, melting point, and thermal conductivity.
• Chemical Resistance: Compatibility with various chemicals and environmental conditions.
• Processing Characteristics: Moulding and extrusion capabilities, including flow properties and shrinkage rates.

Who Should Use This Standard?

The BS EN ISO 23153-1:2020 standard is designed for a wide range of professionals involved in the production and application of PEEK materials, including:

• Manufacturers: Companies producing PEEK components and products.
• Engineers: Design and process engineers working with PEEK materials.
• Quality Assurance Professionals: Individuals responsible for ensuring product quality and compliance.
• Researchers: Scientists and researchers studying the properties and applications of PEEK.

Conclusion

The BS EN ISO 23153-1:2020 standard is an invaluable resource for anyone involved in the production, application, or study of Polyetheretherketone (PEEK) materials. By providing a clear and comprehensive framework for the classification and specification of PEEK, this standard helps ensure the highest levels of quality, reliability, and performance in PEEK products. Whether you are a manufacturer, engineer, or researcher, this standard is an essential tool for achieving success in the ever-evolving world of high-performance plastics.

BS EN ISO 23153-1:2020

This standard BS EN ISO 23153-1:2020 Plastics. Polyetheretherketone (PEEK) moulding and extrusion materials is classified in these ICS categories:

• 83.080.20 Thermoplastic materials

This document establishes a system of designation for polyetheretherketone (PEEK) moulding and extrusion materials which can be used as the basis for specifications. Polyetheretherketone polymer chains are composed of phenylene rings linked in (1,4) position by a sequence of two ether groups followed by one ketone group.

The grades of PEEK plastics are differentiated from each other by a classification system based on appropriate levels of the designatory properties

1. melt viscosity or melt volume-flow rate;

2. tensile modulus;

3. tensile strength;

and on information about the intended application and/or method of processing, important properties, additives, colorants, fillers and reinforcing materials.

The designation system is applicable to all polyetheretherketones.

It applies to materials ready for normal use in the form of powder, granules or pellets, unmodified or modified by colourants, fillers, reinforcements or other additives.

It is not intended to imply that materials having the same designation necessarily give the same performance. This document does not provide engineering data, performance data or data on processing conditions which can be required to specify a material for a particular application and/or method of processing.

If such additional properties are required, they are intended to be determined in accordance with the test methods specified in ISO 23153-2, if suitable.

In order to specify a thermoplastic material for a particular application or to ensure reproducible processing, additional requirements are given in data block 5 (see 4.1).