In regulated markets, internal trigger mechanisms require thin rust prevention without changing the part's functional geometry (sear engagement surfaces). DIN 509E06X02 exclusive offers a dry-film lubricant that prevents carbon fouling adhesion.
) : The depth of the groove cut below the baseline of the turned diameter is exactly .
Recesses into both the face wall and the shaft floor at a 15-degree angle. din 509e06x02 exclusive
This article explores the technical specifications, applications, and manufacturing advantages of the DIN 509 E0.6x0.2, clarifying why it is a favored choice for engineers. 1. Defining DIN 509 E0.6x0.2
The of your shaft (e.g., structural steel, aluminum, titanium). Recesses into both the face wall and the
Refers to a relief groove with a specific geometry designed for parts where a shoulder meets a cylindrical surface. 0.6: Represents the radius ( ) of the tool relief groove in millimeters (0.6 mm). 0.2: Represents the depth ( ) of the undercut in millimeters (0.2 mm).
: Components or products manufactured to this standard would likely undergo precise engineering processes, ensuring tight tolerances and high-quality finishes. Defining DIN 509 E0
If you are looking for a or a CAD block for this specific undercut, let me know! I can also provide the dimensions for Form F (which covers both the shaft and the shoulder face) if that fits your design better.
The keyword represents a highly specific, precise technical designation within precision engineering, manufacturing, and computer-aided design (CAD). At its core, this string references an engineered relief groove or undercut designed according to the widely adopted German standard, DIN 509 .
The dimensional accuracy of the 06x02 specifications is maintained at a tighter tolerance (e.g.,
: The standard titled Technical drawings - Undercuts - Types and dimensions . It defines standardized grooves used to provide clearance for subsequent machining operations (like grinding) or to ensure mating parts seat properly against a shoulder.