Din 5482 Spline Dimensions Calculator Jun 2026
The theoretical diameter where the tooth thickness equals the space width. It serves as the baseline for all geometric calculations. Formula∶d=m×zFormula colon space d equals m cross z 4. Base Diameter (
In all modes, the user can directly input known values like tooth thickness or profile shift coefficient, or provide measurement data—such as or span width . The calculator then uses these values to derive the missing geometry.
Despite its withdrawn status, DIN 5482 components are still common in the field. Real-world applications include parts for agricultural and industrial machinery. din 5482 spline dimensions calculator
DIN 5482 represents a German standard for involute splines with a pressure angle of 30° source. Unlike DIN 5480, which is designed for standard, high-load industrial applications, DIN 5482 is often referred to as a "special" or "non-standard" involute spline used widely in hydraulic systems, machine tools, and vehicle transmissions source. Key Characteristics of DIN 5482 30° (Involute profile). Module Size: Typically ranges from 0.8 to 5 or higher.
Dx≈1.732×mcap D sub x is approximately equal to 1.732 cross m The theoretical diameter where the tooth thickness equals
Automatically calculate tooth tip, root, and pitch diameters based on input parameters.
For designers working with legacy, automotive, or specialized machine tools, understanding and utilizing a DIN 5482 calculator is essential for successful mechanical design. Base Diameter ( In all modes, the user
specifies involute splines with 30° pressure angle and flat root geometry, primarily used for automotive, hydraulic, and machine tool connections. Unlike DIN 5480 (30°–37.5° PA), DIN 5482 uses module series and distinguishes between light , medium , and heavy duty fits.
Furthermore, the calculator must account for . In DIN 5482, the tooth depth is typically defined as $h = 2 \cdot m$. This is different from the standard gear tooth depth (which is usually $2.25 \cdot m$) because splines generally have shorter teeth to maximize shear strength and minimize stress concentrations.
🚀 Manual calculations involving involute functions (