Din 509e06x02 Exclusive [updated]

Every lathe turning insert has a radius at its cutting tip. Without an undercut, the lathe tool cannot physically machine a perfect 90∘90 raised to the composed with power

Utilized in situations requiring lightweight yet extremely durable fasteners that adhere to strict material safety standards. din 509e06x02 exclusive

This article provides a complete, technical deep dive into DIN 509E06X02, explaining its composition, application process, testing methods, and why it is considered an exclusive benchmark for durable coatings. Every lathe turning insert has a radius at its cutting tip

This is the metric measurement of the cut. In the notation E0.6x0.2 , the first number— 0.6 —refers to the radius (r) of the undercut's curvature measured in millimeters. This is the curved arc at the bottom of the groove. A radius of 0.6 mm is a standard industrial value used for medium-sized shafts and bores. According to the DIN 509 specifications for a Form E undercut, a radius of 0.6 mm is typically recommended for shaft diameters ranging from 3 mm up to 80 mm. This radius is the "exclusive" factor here; if a shaft is claimed to have a DIN 509 relief, the radius must be exactly 0.6 mm (within tolerance) to guarantee fitment. This is the metric measurement of the cut

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.

Let’s dissect DIN 509E06X02 :

When specifying this on a technical drawing, it is often called out using a leader line pointing to the corner: