Din 509e06x02 Exclusive
The defines the shape, dimensions, and tolerances for undercuts, which are essential for ensuring that mating parts can be assembled properly without interference from corner radii.
According to DIN 509:2006-12 standards, the E0.6x0.2 undercut requires strict tolerances, particularly when used in high-precision applications. Value/Symbol Description Relief grooves for turned parts Type Type E Undercut Radius r = 0.6 mm Radius of the cutting tool corner Depth t₁ = 0.2 mm Depth of the undercut Designation DIN 509—E0.6x0.2 Standard representation
| Property | Value / Description | |----------|----------------------| | Base metal | Steel (most common) | | Coating metal | Zinc (assumed from "X" = no undercoat) | | Thickness | 6 µm (nominal) | | Chromate type | Type 2 – blue, thin, conductive | | Corrosion resistance (salt spray) | ~12–24 hours to white rust (ASTM B117) | | Color | Bright, metallic with blue iridescence | | Hydrogen embrittlement risk | Low to moderate (baking may be required for high-strength steel) | | Temperature resistance | Up to ~120°C (chromate degrades above) | | Electrical conductivity | Good (thin chromate) |
Within the meticulous worlds of German engineering and automotive parts cataloging, few alphanumeric combinations are as easily misinterpreted as "DIN 509E06X02 exclusive." A search for this term often leads to confusion, juxtaposing mechanical engineering standards with specific automotive replacement parts. However, when deconstructed correctly, this keyword unlocks a precise definition related to one of the most critical yet overlooked elements of precision manufacturing: the undercut, or "relief groove."
In applications where the cylindrical surface will be finished, but the face surface is already at final tolerance. High-Fatigue Components: Due to the din 509e06x02 exclusive
This report serves as a general guide to understanding the format and potential implications of such designations. For specific actions or decisions, precise information from authoritative sources is recommended.
refers to a specific type of relief groove (or undercut) used in mechanical engineering, typically situated at the root of an external thread.
mm) : Represents the precise radius of the undercut tool tip. A radius of 0.6 mm guarantees a smooth transition profile to prevent sharp corners that lead to micro-fractures. 02 (Depth
I’ll assume you mean the German standard DIN 509E06X02 (likely a part or variant); I’ll produce a concise, structured report summarizing scope, key requirements, typical applications, inspection/test methods, and compliance steps. If you meant a different standard or need a specific clause, say so. The defines the shape, dimensions, and tolerances for
For superior corrosion resistance in automotive applications.
According to DIN 509 standards , this specific size (0.6 x 0.2) is generally recommended for workpieces with a diameter range of .
Despite a higher upfront plating cost, the exclusive specification reduces total warranty and rejection expenses by 73% in this example. For high-volume, high-reputation brands, the exclusive standard is not an expense—it is an investment.
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 refers to a specific type of relief groove
📍 If a shaft needs to be ground to a high tolerance, the undercut provides a "run-out" zone for the grinding wheel. This prevents the wheel from hitting the shoulder and causing damage.
Utilized in situations requiring lightweight yet extremely durable fasteners that adhere to strict material safety standards.
DIN 509E06X02 was commonly used for:
): This specific groove size is generally recommended for workpieces with diameters .