Din 509e06x02 Exclusive =link= | 720p |
A specific geometry of undercut designed for scenarios where a perpendicular shoulder must be maintained for assembly (often used where parts don't require high fatigue resistance).
: The 0.2mm depth is designed for "exclusive" fitment. It ensures that when you slide a bearing or a gear onto a shaft, it sits perfectly flush against the shoulder. Without that tiny 0.2mm of breathing room, the tiny leftover "fillet" from the machining tool would prevent a perfect 90-degree fit, leading to vibration and eventual machine failure.
: Grinding wheels possess slightly radiused edges. Without a pre-machined undercut, a wheel cannot polish a shaft all the way to its shoulder without wearing down unevenly or leaving an un-machined ridge. din 509e06x02 exclusive
I can provide the specific feed rates, tool insert recommendations, or exact drawing callout texts for your project. Share public link
radius acts as a smooth bridge, preventing sharp-corner cracking under cyclical operational tension. A specific geometry of undercut designed for scenarios
As noted in the initial search results, the numeric string "509E.06" appears in automotive parts databases as a stabilizer bar mounting bushing for the and Peugeot 307 platforms.
In the world of high-precision manufacturing and surface engineering, standards are not merely suggestions—they are the language of quality. However, within the vast library of these technical norms, certain designations carry an air of rarity and specialized performance. One such term gaining significant traction among quality engineers and procurement specialists is the . Without that tiny 0
The DIN 509 standard distinguishes between four main types (Forms E, F, G, and H), each suited for different scenarios. The table below provides a technical breakdown of each:
: The overarching technical standard governed by the German Institute for Standardization ( Deutsches Institut für Normung ), which establishes the exact geometric forms, dimensions, and drawing representations of undercuts on turned parts and internal bores.
), the E0.6x0.2 profile acts as an for smaller components. It provides just enough clearance for tool escape without dramatically sacrificing the structural cross-section or causing severe fatigue weakness under rotational load. 4. Technical Drawing and CAD Implementation