Title: What is EN 10246-9:2016/A2:2019: The Ultimate Guide to Eddy Current Testing?
Steel tubes and fittings are essential components in various industries, including manufacturing, construction, and engineering. As such, it is critical to ensure their quality and reliability. One of the most widely used techniques for non-destructive testing (NDT) of steel tubes and fittings is eddy current testing. This technique involves passing an alternating current through the material, which creates a magnetic field that can reveal any surface or near-surface flaws, such as cracks, corrosion, inclusions, or variations in wall thickness.
To ensure the quality and reliability of these components, EN 10246-9:2016 and EN 10246-3:2016 are two key standards that must be followed. In this article, we will delve into the requirements of these two standards and what they offer to manufacturers and inspectors.
What is EN 10246-9:2016?
EN 10246-9:2016 is a standard that defines the method for non-destructive testing (NDT) of steel tubes and fittings using eddy current testing. This technique involves passing an alternating current through the material, which creates a magnetic field that can reveal any surface or near-surface flaws.
The main purpose of EN 10246-9:2016 is to ensure the quality and reliability of steel tubes and fittings by providing guidelines for conducting eddy current tests. The standard helps identify any potential flaws or defects present in the materials, such as cracks, corrosion, inclusions, or variations in wall thickness. By detecting these issues early on, manufacturers can take necessary measures to prevent failures or accidents during the usage of these components.
Testing Procedure and Requirements:
To ensure the effectiveness of EN 10246-9:2016, manufacturers must follow a standardized testing procedure. The testing procedure consists of several steps, including preparing the sample, setting up the equipment, and conducting the test.
The testing equipment must be calibrated and in good working condition before conducting the tests. The standard specifies the requirements for the equipment, including the accuracy and precision of the instruments, the range of the testing equipment, and the capabilities of the equipment in terms of the materials being tested.
The testing procedure also outlines the specific tests that must be conducted, the conditions under which the tests should be conducted, and the data that must be collected during the tests.
What is EN 10246-3:2016?
EN 10246-3:2016 is a technical standard that outlines the requirements for implementing automatic eddy current testing in the inspection of steel tubes. This standard is based on the ISO 9001:2015 standard and is designed to ensure the quality and reliability of steel tubes used across various industries.
The purpose of EN 10246-3:2016 is to ensure the quality and reliability of steel tubes used across various industries by detecting and assessing potential imperfections or defects. This standard establishes guidelines for carrying out automatic eddy current testing, which is a non-destructive testing method commonly used for detecting surface and near-surface cracks, laminations, and other anomalies in conductive materials.
Key Features and Requirements:
EN 10246-9:2016 and EN 10246-3:2016 share many similarities in terms of their key features and requirements. However, there are some important differences between the two standards.
EN 10246-9:2016 is focused on the requirements for manual.
Contact: Cindy
Phone: +86-13751010017
E-mail: sales@iecgauges.com
Add: 1F Junfeng Building, Gongle, Xixiang, Baoan District, Shenzhen, Guangdong, China