ESAB offers a complete line of welding and cutting products and solutions. Explore our equipment offering with ease based on product line and industry.
ESAB is a world leader in welding and cutting equipment and consumables. Explore our complete line of welding & cutting products for virtually every application.
ESAB University is your online learning destination for welding and fabrication technology. Make personalized playlists of your favorite resources including videos, blogs, articles, webinars and more.
ESAB Courses are structured learning paths designed to take your welding knowledge and skills to the next level.
Articles cover industry topics more in-depth and are created in partnership with ESAB engineers and master welders. Click the links to see the latest.
ESAB blogs include information and tips from ESAB Experts to improve your welding and fabrication knowledge.
ESAB University videos are curated with tips and best practices from top fabricators around the world. Learn new techniques or improve your current skills with ESAB University videos.
Enhance your knowledge of welding, cutting, and fabrication with free and accessible webinars on a variety of topics, including welding best practices, tips for using ESAB products, new product launches, and more, presented by trusted ESAB experts.
ESAB's Future for Fabricators platform is committed to highlighting those who lead education for aspiring future fabricators. We aim to share inspirational stories, facilitate initiatives to bring tools and expertise to communities and make our equipment accessible to ensure future fabricators are set up for success - right from the start.
ESAB is a world leader in welding and cutting equipment and consumables. We offer a complete line of fabrication solutions for virtually every application.
ESAB Newsroom - Stay up to date with the latest news from ESAB. View press releases, product announcements, corporate news, and more here.
ESAB EHS (Environment, Health & Safety) initiatives are monitored with the highest degree of importance and commitment to safety is ingrained in our culture.
The history of ESAB is the History of Welding. Go here to view an interactive look at ESAB's history in shaping the future of innovation in welding, cutting, and fabrication.
View available job openings and more on the ESAB Careers page.
ESAB offers a wealth of product support resources, including a range of technical and service publications, from Safety Data Sheets and downloadable product manuals to product certifications.
Visit ESAB's global manual search engine to access the items below and more.
Global User Manuals
Instruction Manuals
Spare Parts List
Product Storage Instructions
View Main Contact Page
View ESAB Location Information
1.800.ESAB.123
No playlist found! Your playlist can be created here.
The present article covers an introduction to destructive weld testing, various methods of destructive testing, their applications, and their significance.
Destructive weld testing, as the name suggests, involves the physical destruction of a completed weld to evaluate its strength and characteristics. The testing procedure is conducted to understand a specimen’s material behavior, strength, quality of the welded joint, and the skill of the welder.
Destructive weld testing is frequently used for the following applications:
Methods of destructive weld testing typically involve sectioning or breaking the welded component and evaluating various mechanical and physical characteristics. Check out some of the most common methods for executing a destructive weld test below.
This method requires the removal of small samples from the welded joint. These samples are then polished at their cross-section and etched using a mild acid mixture, depending on the base material used. The acid etch provides a clear visual of the weld's internal structure.
Inspection of the etched sample reveals the depth of penetration, as well as evidence (if any) of lack of fusion, inadequate root penetration, internal porosity, and cracking shown at the fusion line (which is the transition between the weld and the base material).
This type of inspection is a snapshot of the overall weld-length quality when used for sampling inspection of production welds. Macro etch testing is also used successfully in failure analyses to pinpoint welding problems such as crack initiation.
This type of testing involves breaking a sample fillet weld that is welded on one side only. The sample has a load applied to its unwelded side, typically in a press, and the load is increased until the weld fails. The failed sample is then inspected to establish the presence and extent of any welding discontinuities.
Fillet weld break tests provide a good indication of discontinuities within the entire length of the weld tested (normally 6 to 12 inches) rather than a cross-sectional snapshot, like the macro etch test. This type of weld inspection can detect such items as lack of fusion, internal porosity, and slag inclusions.
Though the fillet weld break test is often used on its own, it can also be used in conjunction with the macro etch test, as the two methods complement each other by providing information on similar characteristics but with different detail.
A significant portion of the design is based on the tensile properties of the welded joint. Therefore, the below factors need to conform to the design requirements:
The transverse tension test checks all this by pulling specimens to failure and then dividing the maximum load required during testing by the cross-sectional area. The result is in units of tension per cross-sectional area.
This is a test method that involves bending a specimen to a specified bend radius. Various types of bend tests are used to evaluate the ductility and soundness of welded joints. Guided bend tests are usually taken transverse to the weld axis and may be bent in plunger-type test machines or in wraparound bend test jigs. Face bend tests are made with the weld face in tension, while root bend tests are made with the weld root in tension. When bend testing thick plates, side bend test specimens are usually cut from the welded joint and bent with the weld cross-section in tension.
The guided bend test is most commonly used in welding procedures and welder performance qualification tests. This type of testing is particularly good at finding liner fusion defects, which will often open up in the plate surface during testing.
If you want to learn more about destructive weld testing techniques, tools, and applications, or if you have a question that wasn't answered here, please feel free to contact us.
JP doesn't write articles, he writes amazing code. JP is the wizard behind all the cool stuff you see on this website. He lives in the code pulling all the strings that make this place dynamic.
Connect With Me: