I am Looking for some Help with determining the Effective length of a spline but can not find a calculation anywhere. I have the Machinist Hand book Spline section and it has a chart but I seems like there should be a calculation for this.
This is considered a Flexible Spline in the machinist handbook.
Ultimately I am trying to calculate the torque capacity of this spline shaft.
This is the data on the Spline:
Internal Involute Spline Data:
Flat Root Side Fit:
Number of Teeth: 16
Module: 2
Pressure Angle: 30°
Base Diameter: 27.7128mm
Pitch Diameter: 32.00mm
Major Diameter: 35.2800mm
Form Diameter: 34.40mm
Minor Diameter: 30.29mm
Circular Space Width:
Max Actual: 3.142mm
Min Effective: 3.183mm
Tolerance Class: 4H
Spline Callout: INT 16Z x 2m x 30P x 4H ANSI B92.2M-1980
External Involute Spline Data:
Flat Root Side Fit:
Number of Teeth: 16
Module: 2
Pressure Angle: 30°
Base Diameter: 27.7128mm
Pitch Diameter: 32.00mm
Major Diameter: 34.0000mm
Form Diameter: 29.89mm
Minor Diameter: 28.72mm
Circular Tooth Thickness:
Max Effective: 3.142mm
Min Actual: 3.076mm
Tolerance Class: 5h
Spline Callout: EXT 16Z x 2m x 30P x 5h ANSI B92.2M-1980
Shear Stress under roots of External Teeth:
Allowable Shear Stress (Table 11): SS: 40,000PSI
Spline Application Factor (Table 7):Ka: [/indent]1.2
Fatigue-Life Factors (Table 9): Kf: 0.5
Minor diameter, external spline root: Dre: 1.1925 in =30.29mm
Solid Shaft Stress: Ss: 10,511 PSI 3.81 Service Factor
Shaft stress with Fatigue and Life Factors: 25,226PSI = 1.59 Service Factor
Max Transmitable torque: T: 5,550 in-lbs = 1.59 Service Factor
Shear Stress at Pitch Diameter of teeth:
Allowable Shear Stress (Table 11): SS: 40,000 PSI
Spline Application Factor (Table 7): Ka: 1.2
Fatigue-Life Factors (Table 9): Kf: 0.5
Load Distribution factor (Table 8): Km: 2.5
Maximum effective Length (Fig. 4): Le:1.200 This is what I would like to calculate.
Pitch Diameter: D: 1.2598 in = 32.00mm
Number of Teeth: N: 16
Circular Tooth Thickness: Max Effective: t: 3.142
Actual Transmitted torque: T: 3,500 in-lbs
Calculated Shear Stress: 1,105 PSI = 36.19 Service Factor:
Compressive Stresses on the Sides of the Spline Teeth:
Allowable Compressive Stress (Table 11): SS: 3,000 PSI
Spline Application Factor (Table 7): Ka: 1.2
Fatigue-Life Factors (Table 9): Kf: 0.5
Load Distribution factor (Table 8): Km: 2.5
Maximum effective Length (Fig. 4): Le: 1.2
Pitch Diameter: D: 1.2598 in = 32.00mm
Number of Teeth: N: 16
Circular Tooth Thickness: Max Effective: t: 3.142
Actual Transmitted torque: T: 3,500 in-lbs
Wear-Life Factors (Table 10): Kw: 0.7
Circular Pitch: P: 12.7
Depth of engagement of teeth: h: 0.070866142
Compressive stress: Sc: 17,501 PSI = 0.17 Service Factor This is low and want to confirm the length.
Thanks in advance
This is considered a Flexible Spline in the machinist handbook.
Ultimately I am trying to calculate the torque capacity of this spline shaft.
This is the data on the Spline:
Internal Involute Spline Data:
Flat Root Side Fit:
Number of Teeth: 16
Module: 2
Pressure Angle: 30°
Base Diameter: 27.7128mm
Pitch Diameter: 32.00mm
Major Diameter: 35.2800mm
Form Diameter: 34.40mm
Minor Diameter: 30.29mm
Circular Space Width:
Max Actual: 3.142mm
Min Effective: 3.183mm
Tolerance Class: 4H
Spline Callout: INT 16Z x 2m x 30P x 4H ANSI B92.2M-1980
External Involute Spline Data:
Flat Root Side Fit:
Number of Teeth: 16
Module: 2
Pressure Angle: 30°
Base Diameter: 27.7128mm
Pitch Diameter: 32.00mm
Major Diameter: 34.0000mm
Form Diameter: 29.89mm
Minor Diameter: 28.72mm
Circular Tooth Thickness:
Max Effective: 3.142mm
Min Actual: 3.076mm
Tolerance Class: 5h
Spline Callout: EXT 16Z x 2m x 30P x 5h ANSI B92.2M-1980
Shear Stress under roots of External Teeth:
Allowable Shear Stress (Table 11): SS: 40,000PSI
Spline Application Factor (Table 7):Ka: [/indent]1.2
Fatigue-Life Factors (Table 9): Kf: 0.5
Minor diameter, external spline root: Dre: 1.1925 in =30.29mm
Solid Shaft Stress: Ss: 10,511 PSI 3.81 Service Factor
Shaft stress with Fatigue and Life Factors: 25,226PSI = 1.59 Service Factor
Max Transmitable torque: T: 5,550 in-lbs = 1.59 Service Factor
Shear Stress at Pitch Diameter of teeth:
Allowable Shear Stress (Table 11): SS: 40,000 PSI
Spline Application Factor (Table 7): Ka: 1.2
Fatigue-Life Factors (Table 9): Kf: 0.5
Load Distribution factor (Table 8): Km: 2.5
Maximum effective Length (Fig. 4): Le:1.200 This is what I would like to calculate.
Pitch Diameter: D: 1.2598 in = 32.00mm
Number of Teeth: N: 16
Circular Tooth Thickness: Max Effective: t: 3.142
Actual Transmitted torque: T: 3,500 in-lbs
Calculated Shear Stress: 1,105 PSI = 36.19 Service Factor:
Compressive Stresses on the Sides of the Spline Teeth:
Allowable Compressive Stress (Table 11): SS: 3,000 PSI
Spline Application Factor (Table 7): Ka: 1.2
Fatigue-Life Factors (Table 9): Kf: 0.5
Load Distribution factor (Table 8): Km: 2.5
Maximum effective Length (Fig. 4): Le: 1.2
Pitch Diameter: D: 1.2598 in = 32.00mm
Number of Teeth: N: 16
Circular Tooth Thickness: Max Effective: t: 3.142
Actual Transmitted torque: T: 3,500 in-lbs
Wear-Life Factors (Table 10): Kw: 0.7
Circular Pitch: P: 12.7
Depth of engagement of teeth: h: 0.070866142
Compressive stress: Sc: 17,501 PSI = 0.17 Service Factor This is low and want to confirm the length.
Thanks in advance