In the world of welding and metal fabrication, precision isn't just a goal—it’s a necessity. But achieving "perfect" measurements on every single weldment is neither practical nor cost-effective. That’s where EN ISO 13920 comes in.
| Nominal Dimension Range | Linear Tolerance (± mm) | |------------------------|------------------------| | Up to 30 mm | 0.5 mm | | 30 – 120 mm | 0.8 mm | | 120 – 400 mm | 1.2 mm | | 400 – 1000 mm | 2.0 mm | | 1000 – 2000 mm | 3.0 mm | en iso 13920-bf
Next time you see it on a print, you’ll know exactly what level of quality the designer expects. Use it correctly, and you’ll save money, reduce rework, and keep your customer happy. Have you switched from DIN 8570 to EN ISO 13920? Share your experience in the comments below. In the world of welding and metal fabrication,
In simple terms: It tells you how much a welded part can deviate from the drawing before it is considered "out of spec." The suffix "BF" stands for "B Fine" . | Nominal Dimension Range | Linear Tolerance (±
Let’s break it down. EN ISO 13920 is the international standard for General Tolerances for Welded Constructions . It replaces older national standards (like DIN 8570 in Germany) and provides a unified system for tolerancing linear dimensions, angular dimensions, straightness, flatness, and parallelism.
If you’ve recently seen a drawing with “EN ISO 13920-BF” in the title block, you might have wondered: What does the “BF” mean, and how does it affect my shop floor?