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Homepage>BS Standards>83 RUBBER AND PLASTICS INDUSTRIES>83.080 Plastics>83.080.01 Plastics in general>BS EN ISO 489:2022 Plastics. Determination of refractive index (ISO 489:2022)
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immediate downloadReleased: 2022-05-10
BS EN ISO 489:2022 Plastics. Determination of refractive index (ISO 489:2022)

BS EN ISO 489:2022

Plastics. Determination of refractive index (ISO 489:2022)

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Standard number:BS EN ISO 489:2022
Pages:20
Released:2022-05-10
ISBN:978 0 539 15572 3
Status:Standard
BS EN ISO 489:2022 - Plastics. Determination of refractive index (ISO 489:2022)

BS EN ISO 489:2022 - Plastics. Determination of refractive index (ISO 489:2022)

Standard number: BS EN ISO 489:2022

Pages: 20

Released: 2022-05-10

ISBN: 978 0 539 15572 3

Name: Plastics. Determination of refractive index (ISO 489:2022)

Status: Standard

Overview

The BS EN ISO 489:2022 standard is an essential document for professionals in the plastics industry. This standard provides a comprehensive methodology for determining the refractive index of plastics, a critical property that influences the optical performance of plastic materials. Released on May 10, 2022, this 20-page document is the latest update in the series, ensuring that you have the most current and accurate information available.

Why is the Refractive Index Important?

The refractive index is a fundamental optical property that measures how light propagates through a material. For plastics, this property is crucial for applications in optics, electronics, and various other fields. Understanding the refractive index helps in the design and application of plastic materials in lenses, light guides, and other optical components. The BS EN ISO 489:2022 standard provides the precise methods needed to measure this property accurately, ensuring that your materials meet the required specifications.

Key Features

  • Comprehensive Methodology: The standard outlines detailed procedures for determining the refractive index, ensuring accuracy and repeatability.
  • Latest Update: Released in 2022, this document includes the most recent advancements and updates in the field.
  • International Recognition: As an ISO standard, it is recognized and used globally, ensuring compatibility and standardization across different regions and industries.
  • Easy to Understand: Despite its technical nature, the document is written in a clear and concise manner, making it accessible to both experts and newcomers in the field.

Who Should Use This Standard?

This standard is indispensable for a wide range of professionals, including:

  • Material Scientists: Gain insights into the optical properties of new plastic materials.
  • Quality Control Engineers: Ensure that plastic products meet the required optical specifications.
  • Research and Development Teams: Develop new plastic materials with specific optical properties.
  • Manufacturers: Maintain consistency and quality in production processes.

Detailed Content

The BS EN ISO 489:2022 standard is divided into several sections, each focusing on different aspects of refractive index determination:

  • Introduction: Provides an overview of the importance of refractive index in plastics.
  • Scope: Defines the range and limitations of the standard.
  • Normative References: Lists other standards and documents referenced in the text.
  • Terms and Definitions: Clarifies the terminology used throughout the document.
  • Principle: Explains the fundamental principles behind the measurement techniques.
  • Apparatus: Describes the equipment required for accurate measurement.
  • Procedure: Outlines the step-by-step process for determining the refractive index.
  • Calculation: Provides formulas and methods for calculating the refractive index from the measured data.
  • Precision and Bias: Discusses the accuracy and potential sources of error in the measurements.
  • Test Report: Specifies the information that should be included in the test report.

Benefits of Using BS EN ISO 489:2022

Adopting the BS EN ISO 489:2022 standard offers numerous benefits:

  • Enhanced Accuracy: Follow a standardized method to achieve precise and reliable results.
  • Global Compatibility: Ensure that your measurements are consistent with international standards.
  • Improved Quality Control: Maintain high standards in your production processes by adhering to a recognized methodology.
  • Innovation: Facilitate the development of new materials with specific optical properties.

Conclusion

The BS EN ISO 489:2022 standard is an invaluable resource for anyone involved in the plastics industry. By providing a detailed and standardized method for determining the refractive index, this document ensures that you can achieve accurate and reliable results. Whether you are a material scientist, quality control engineer, or manufacturer, this standard will help you maintain high standards and drive innovation in your field.

DESCRIPTION

BS EN ISO 489:2022


This standard BS EN ISO 489:2022 Plastics. Determination of refractive index (ISO 489:2022) is classified in these ICS categories:
  • 83.080.01 Plastics in general
Dieses Dokument legt zwei Verfahren zur Bestimmung des Brechungsindex von Kunststoffen fest: - Verfahren A: Refraktometerverfahren zur Messung des Brechungsindex von Formteilen, gegossenen oder stranggepressten Tafeln oder Folien mit einem Refraktometer. Dieses Verfahren gilt nicht nur für isotrope durchsichtige, durchscheinende, gefärbte oder undurchsichtige, sondern auch für anisotrope Werkstoffe. - Verfahren B: Immersionsverfahren (unter Ausnutzung des Becke-Linien-Phänomens) zur Bestimmung des Brechungsindex von pulverförmigen oder granulierten durchsichtigen Werkstoffen unter Anwendung eines Mikroskops. Im Allgemeinen wird monochromatisches Licht verwendet, um Dispersionseffekte zu vermeiden. ANMERKUNG Der Brechungsindex ist eine grundlegende Eigenschaft, die zur Überprüfung der Reinheit und der Zusammensetzung, zur Identifizierung von Werkstoffen und zur Bemessung optischer Teile verwendet werden kann. Aus der Änderung des Brechungsindex mit der Temperatur kann der Übergangspunkt der Werkstoffe ermittelt werden.