If you are currently setting up a production line or creating technical drawings for this feature, let me know: What you are machining? What mating component sits on this shaft section?
Components manufactured on different sides of the world will fit seamlessly during assembly.
To understand this code, you need to know the foundation: on shafts or in bores.
For engineers specifying high-end decorative or functional coatings, this standard offers the best balance of thinness, corrosion protection, and aesthetic brilliance. When a supplier offers "exclusive," they are not just plating metal—they are engineering durability. din 509e06x02 exclusive
The numerical sequence E06X02 (or as correctly designated in technical literature, ) breaks down into three distinct technical descriptors:
Sharp 90-degree transitions create severe stress concentrations. Under cyclic mechanical loads, these corners act as crack initiation sites, leading to sudden fatigue failure. The 0.6 mm radius transitions the grain structure of the metal smoothly, dispersing stress lines and vastly improving the fatigue life of the shaft.
The alphanumeric designation "E 0.6 x 0.2" acts as a shorthand for specific geometric requirements: If you are currently setting up a production
: The German national standard that defines the forms and dimensions of undercuts for technical drawings.
If this matches what you want, tell me which deliverable to produce (e.g., “inspection checklist” or “dimensional tables”) or provide the exact standard number if different.
Unlike generic components, the "Exclusive" variant is often manufactured from high-tensile steel, stainless steel alloy (e.g., A4), or specialized alloys designed for high-stress environments. This ensures resistance to shearing, fatigue, and environmental corrosion. 2. Enhanced Precision Tolerance To understand this code, you need to know
(e.g., bearing, seal) is being installed? What material is the part made of (steel, aluminum)?
However, I can offer a of what this designation typically refers to in the context of electroplated coatings, based on widely available technical knowledge.
At first glance, 6µm (0.00024 inches) seems impossibly thin. But in electroplating, thickness is a balance between cost, function, and adhesion.