论文信息 - The Influence of Gear Design Parameters on Gear Tooth Damage Detection Sensitivity

The Influence of Gear Design Parameters on Gear Tooth Damage Detection Sensitivity

This paper develops an analytical model to simulate the gear mesh contact for a spur gear pair with and without tooth damage. Three common gear tooth faults are simulated including pitting, wear and root cracks. The effect of tooth face width on detection sensitivity for pitting and the effect of crack width on detection sensitivity for crack are investigated. Using static performance measures, such as transmission error results suggest that basic gear design parameters, such as diametral pitch, pressure angle and number of teeth, may have a significant effect on damage detection sensitivity. It appears that a decrease in diametral pitch will enhance damage detection sensitivity for all the three types of damage. An increase in pressure angle or number of teeth will enhance detection sensitivity for pitting damage, but tends to decrease the sensitivity to crack or wear damage.

Darryll J. Pines | Lin Liu | D. Pines | Lin Liu

[1] Robert G. Parker,et al. Mesh Stiffness Variation Instabilities in Two-Stage Gear Systems , 2002 .

[2] David G. Lewicki,et al. Gear Crack Propagation Path Studies: Guidelines for Ultra-Safe Design , 2001 .

[3] Darryll J. Pines,et al. A Comparison of Stationary and Non-Stationary Metrics for Detecting Faults in Helicopter Gearboxes , 2000 .

[4] Darryll J. Pines,et al. A Comparison of Stationary and Non-Stationary Transforms for Early Fault Detection in the OH-58A Main Transmission , 1998 .

[5] W. J. Wang,et al. Application of orthogonal wavelets to early gear damage detection , 1995 .

[6] Dennis P. Townsend,et al. An Analysis of Gear Fault Detection Methods as Applied to Pitting Fatigue Failure Data , 1993 .

[7] Darle W. Dudley,et al. Handbook of Practical Gear Design , 1984 .

[8] R. K. Carroll,et al. Optimal Design of Compact Spur Gear Sets , 1984 .

[9] John J. Coy,et al. Optimal tooth numbers for compact standard spur gear sets , 1982 .

[10] Richard T. Smith. Geomicrobiology. henry lutz erlich. marcel dekker inc., new york, 1981. isbn 0 8247 1183 1 , 1982 .

[11] Robert B. Randall,et al. A New Method of Modeling Gear Faults , 1982 .

[12] R. Cornell. Compliance and Stress Sensitivity of Spur Gear Teeth , 1981 .

[13] S. L. Harris,et al. A method of measuring transmission error in spur gears of 1:1 ratio , 1963 .