Cuts parallel along the primary shaft axis into the shoulder wall.
This specific form is favored when the material needs to be removed cleanly while maintaining a high-quality surface finish, often found in CNC-turned components. Applications and Industry Usage The DIN 509E06x02 is utilized extensively in: din 509e06x02 exclusive
) : The depth of the groove cut below the baseline of the turned diameter is exactly . Cuts parallel along the primary shaft axis into
The precision engineering keyword refers directly to a highly specific, standardized mechanical manufacturing feature: a Type E undercut with a 0.6 mm radius and 0.2 mm depth defined under the German Institute for Standardization (DIN) 509 standard . This specific relief groove configuration is essential for manufacturing rotationally symmetric turned parts where mating parts must fit perfectly flush against a shoulder. The precision engineering keyword refers directly to a
| | Description | Relevance | | :--- | :--- | :--- | | Relief Grooves (Undercuts) | Specifies types and dimensions for undercuts on shafts and in bores to facilitate machining and assembly. | Directly relevant to our keyword, as the E06X02 likely refers to a specific Type E undercut size. | | Gas Appliances (DIN EN 509) | A European standard for decorative fuel-effect gas appliances, unrelated to engineering components. | Not relevant. Be cautious not to confuse this with the mechanical engineering standard. | | Surface Treatment (Withdrawn) | Historical standards (e.g., DIN 50967) for nickel-chromium coatings, which have been largely superseded by ISO or other DIN standards. | Unlikely to be the focus here, unless the "EXCLUSIVE" part refers to a proprietary coating. | | Corrosion Testing | A series of standards (DIN 50900, etc.) defining corrosion terminology and testing methods for metals. | This is a different series and not the likely source of the "E06X02" designation. |
Implementing an exclusive DIN 509 E0.6x0.2 undercut solves three primary structural and mechanical problems in engineering:
📍 By providing a smooth, rounded transition, it helps distribute mechanical stress, reducing the risk of cracks at the corner of the shaft. Application Tip