BS ISO 16014-2:2019 - Plastics: Determination of Average Molecular Weight and Molecular Weight Distribution of Polymers Using Size-Exclusion Chromatography Universal Calibration Method

Unlock the potential of precise polymer analysis with the BS ISO 16014-2:2019 standard. This essential document provides a comprehensive guide to determining the average molecular weight and molecular weight distribution of polymers using the size-exclusion chromatography (SEC) universal calibration method. Whether you are a researcher, a quality control specialist, or a professional in the plastics industry, this standard is an invaluable resource for ensuring accuracy and consistency in your polymer analysis.

Key Features

• Standard Number: BS ISO 16014-2:2019
• Pages: 18
• Release Date: May 20, 2019
• ISBN: 978 0 580 52248 2
• Status: Standard

Comprehensive Guidance for Polymer Analysis

The BS ISO 16014-2:2019 standard is meticulously crafted to provide detailed instructions on using size-exclusion chromatography for polymer analysis. This method is renowned for its ability to separate molecules based on their size, allowing for precise determination of molecular weight and distribution. The universal calibration method outlined in this standard ensures that your results are both accurate and reproducible, making it an indispensable tool for laboratories and research facilities.

Why Choose BS ISO 16014-2:2019?

Choosing the right standard is crucial for achieving reliable results in polymer analysis. The BS ISO 16014-2:2019 offers several advantages:

• Accuracy: Provides a reliable method for determining molecular weight and distribution, essential for quality control and research.
• Reproducibility: Ensures consistent results across different laboratories and experiments.
• Universal Calibration: Utilizes a universal calibration method, making it applicable to a wide range of polymers.
• Industry Standard: Recognized globally, ensuring compliance with international quality and safety standards.

Applications

The BS ISO 16014-2:2019 standard is applicable across various sectors within the plastics industry, including:

• Research and Development: Essential for developing new polymer materials and improving existing ones.
• Quality Control: Ensures that polymer products meet specified molecular weight criteria, crucial for product performance and safety.
• Manufacturing: Supports the production of high-quality polymer products by providing a reliable method for molecular weight analysis.

Enhance Your Polymer Analysis

With the BS ISO 16014-2:2019 standard, you gain access to a robust framework for polymer analysis that enhances the accuracy and reliability of your results. This standard is a testament to the commitment to quality and precision in the field of polymer science.

Conclusion

In the ever-evolving world of plastics, staying ahead requires the best tools and standards. The BS ISO 16014-2:2019 is your gateway to achieving excellence in polymer analysis. By adhering to this standard, you ensure that your work is aligned with the highest international benchmarks, paving the way for innovation and quality in your projects.

Invest in the BS ISO 16014-2:2019 standard today and take a definitive step towards superior polymer analysis and product excellence.

BS ISO 16014-2:2019

This standard BS ISO 16014-2:2019 Plastics. Determination of average molecular weight and molecular weight distribution of polymers using size-exclusion chromatography is classified in these ICS categories:

• 83.080.01 Plastics in general

1

This document specifies a method for determining the average molecular weight and the molecular weight distribution of polymers using size-exclusion chromatography (SEC). The average molecular weight and the molecular weight distribution are calculated using a universal calibration curve instead of the conventional calibration curve.

NOTE

This test method is classified as a relative method as described in ISO 16014-1 , but the average molecular weights and molecular weight distributions calculated by the method are equal to, or nearly equal to, the absolute values. For details, see the Annex A.