lewis equation

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Lewis Equation Ankit Anurag Naik

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Page 1: Lewis Equation

Lewis Equation

Ankit Anurag Naik

Page 2: Lewis Equation

SPUR GEAR - TOOTH STRESSES

Photo-Elastic Model of Gear Tooth

Page 3: Lewis Equation

• Stresses developed by Normal force in a photo-elastic model of gear tooth as per Dolan and Broghammer.

• The highest stresses exist at regions where the lines are bunched closest together. The highest stress occurs at two locations:

I. At contact point where the force F acts

II. At the fillet region near the base of the tooth.

Page 4: Lewis Equation

LEWIS EQUATION FOR TOOTH BENDING STRESS

Page 5: Lewis Equation

Assumptions made in the derivation are:

• The full load is applied to the tip of a single tooth in static condition.

• The radial component is negligible.

• The load is distributed uniformly across the full face width.

• Forces due to tooth sliding friction are negligible.

• Stress concentration in the tooth fillet is negligible.

Page 6: Lewis Equation

Derivation :

By similar triangles:-

Page 7: Lewis Equation

y =Lewis form factor

( Y=∏ y)

Lewis Equation :-

Page 8: Lewis Equation

Drawbacks of Lewis equation are:

• The tooth load in practice is not static. It is dynamic and is influenced by pitch line velocity.

• The whole load is carried by single tooth is not correct. Normally load is shared by teeth since contact ratio is near to 1.5.

• The greatest force exerted at the tip of the tooth is not true as the load is shared by teeth. It is exerted much below the tip when single pair contact occurs.

• The stress concentration effect at the fillet is not considered.

Page 9: Lewis Equation

Modified Lewis Equation:

Page 10: Lewis Equation

Factors that influencing gear tooth bending stresses :

• Pitch line velocity.

• Manufacturing accuracy.

• Contact ratio.

• Stress concentration.

• Degree of shock loading.

• Accuracy and rigidity of mounting.

• Moment of inertia of the gears and attached rotating Members.

Page 11: Lewis Equation

TOOTH BENDING STRESS (AGMA)

• Revised Lewis Equation as Per AGMA(American Gear Manufacturing Association ):

• J = Spur gear geometry factor • Y is the modified Lewis form factor• Kf is the fatigue stress concentration

Page 12: Lewis Equation

• Kv = Velocity or dynamic factor, indicates the severity of impact as successive pairs of teeth engage. This is a function of pitch line velocity and manufacturing accuracy

• Km = Load distribution factor which accounts for non-uniform spread of the load across the face width. It depends on the accuracy of mounting, bearings, shaft deflection and accuracy of gears.

• Ko = Overload factor which reflects the degree of non-uniformity of driving and load torques.