EN 10246-3:2016, titled "Non-destructive testing of steel tubes - Part 3: Automatic eddy current testing of seamless and welded (except submerged arc-welded) steel tubes for the detection of imperfections," is a technical standard that outlines the requirements for implementing automatic eddy current testing in the inspection of steel tubes.
The Purpose of EN 10246-3:2016
EN 10246-3:2016 aims 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
This standard outlines the general principles of automatic eddy current testing and provides specific requirements for the equipment, procedures, and qualification of personnel involved in the inspection process. It defines the parameters, such as scanning speed, probe selection, frequency range, and signal evaluation criteria, to be followed during the testing. The standard also emphasizes the need for proper calibration, validation, and maintenance of the testing equipment to ensure accurate and reliable results.
Benefits of Implementing EN 10246-3:2016
Compliance with EN 10246-3:2016 offers several advantages for manufacturers and consumers of steel tubes. Firstly, it helps in improving product quality by identifying and eliminating defective tubes before they are used in critical applications. This minimizes the risk of failure, enhances safety, and avoids costly repairs or replacements. Secondly, by following standardized testing procedures, manufacturers can ensure consistency in the inspection process, leading to reliable and comparable results. Finally, adhering to this standard allows companies to demonstrate their commitment to quality and compliance, enhancing trust and competitiveness in the market.