BS EN ISO 13259:2020 - Thermoplastics Piping Systems for Underground Non-Pressure Applications

Discover the essential standard for ensuring the integrity and reliability of thermoplastics piping systems used in underground non-pressure applications. The BS EN ISO 13259:2020 provides a comprehensive test method for assessing the leaktightness of elastomeric sealing ring type joints, a critical component in maintaining the performance and safety of piping systems.

Key Features

• Standard Number: BS EN ISO 13259:2020
• Pages: 18
• Release Date: August 13, 2020
• ISBN: 978 0 539 13070 6
• Status: Standard

Overview

This standard is a vital resource for engineers, designers, and professionals involved in the installation and maintenance of underground piping systems. It outlines the procedures necessary to test the leaktightness of joints that utilize elastomeric sealing rings, ensuring that these systems can withstand environmental pressures and prevent leakage.

Why Choose BS EN ISO 13259:2020?

With the increasing demand for reliable and durable piping systems, the BS EN ISO 13259:2020 standard is indispensable for ensuring that your systems meet the highest quality and safety standards. This document provides detailed methodologies for testing, helping you to identify potential weaknesses in your piping systems before they become critical issues.

Applications

The standard is applicable to a wide range of thermoplastics piping systems used in various underground non-pressure applications. These include:

• Drainage systems
• Sewage systems
• Stormwater management systems
• Other non-pressure fluid conveyance systems

Benefits

Implementing the guidelines and test methods outlined in BS EN ISO 13259:2020 offers numerous benefits, including:

• Enhanced Reliability: Ensure that your piping systems are robust and capable of maintaining their integrity over time.
• Improved Safety: Minimize the risk of leaks and environmental contamination, protecting both infrastructure and the surrounding environment.
• Cost Efficiency: Identify and address potential issues early, reducing the need for costly repairs and maintenance.
• Compliance: Meet industry standards and regulatory requirements, ensuring that your projects are up to code.

Detailed Content

The 18-page document is meticulously structured to provide clear and concise instructions for testing the leaktightness of elastomeric sealing ring type joints. It includes:

• Definitions and terminology specific to thermoplastics piping systems
• Detailed test procedures and conditions
• Criteria for evaluating test results
• Guidelines for documentation and reporting

Who Should Use This Standard?

This standard is essential for a variety of professionals, including:

• Engineers and designers involved in the planning and implementation of piping systems
• Quality assurance and control personnel responsible for testing and validation
• Regulatory bodies and inspectors ensuring compliance with industry standards
• Contractors and construction managers overseeing installation and maintenance

Conclusion

The BS EN ISO 13259:2020 standard is a critical tool for anyone involved in the design, installation, and maintenance of underground thermoplastics piping systems. By adhering to the test methods and guidelines provided, you can ensure the long-term performance and safety of your projects, ultimately leading to greater satisfaction and peace of mind for all stakeholders involved.

Invest in the reliability and safety of your piping systems with the BS EN ISO 13259:2020 standard, and ensure that your projects are built to last.

BS EN ISO 13259:2020

This standard BS EN ISO 13259:2020 Thermoplastics piping systems for underground non-pressure applications. Test method for leaktightness of elastomeric sealing ring type joints is classified in these ICS categories:

• 91.140.80 Drainage systems
• 23.040.20 Plastics pipes
• 23.040.80 Seals for pipe and hose assemblies

This document specifies a test method for determining the leaktightness of elastomeric sealing ring type joints for buried thermoplastics non-pressure piping systems.

Unless otherwise specified in the referring standard, the tests are carried out at the following basic test pressures:

1. p ₁: internal negative air pressure (partial vacuum);

2. p ₂: a low internal hydrostatic pressure;

3. p ₃: a higher internal hydrostatic pressure.

It also describes the following four test conditions under which the tests are performed:

1. Condition A: without any additional diametric or angular deflection;

2. Condition B: with diametric deflection;

3. Condition C: with angular deflection;

4. Condition D: with simultaneous angular and diametric deflection.

The applicable selection of the test pressure(s) and the test condition(s) is/are specified in the referring standard.