Crack behavior in a high contact ratio spur gear tooth and its effect on mesh stiffness

• FE modeling and analysis of HCR spur gear having tooth crack for different gear parameters.
• To obtain crack propagation path for different backup ratio and pressure angle.
• Calculations of gear mesh stiffness for teeth pair in mesh by variable crack intersection angle.
• Comparison of total effective mesh stiffness for different crack length and backup ratio.
• Comparison of total effective mesh stiffness for different crack length and pressure angle.

The efficiency of high contact ratio (HCR) gearing can be achieved by proper selection of gear geometry for increased load capacity and smoother operation despite of their high sliding velocities. The prediction of variation in mesh stiffness of HCR gearing is critical as the average number of teeth being in contact is high at a given time as compared to conventional low contact ratio (LCR) gearing. In this paper, linear elastic fracture mechanics (LEFM) based finite element method is used to perform the crack propagation path studies of HCR spur gear having tooth root crack for two gear parameters viz. backup ratio and pressure angle. A total potential energy model has been adopted to analytically estimate the mesh stiffness variation. The results depict the mesh stiffness reduction in the presence of the crack. The percentage change in mesh stiffness with increasing crack length is an important parameter in fault diagnosis of geared transmission. Higher the percentage change in mesh stiffness, easier to detect the fault. Two gear parameters viz. back-up ratio and pressure angle has been studied and the effect of crack length on mesh stiffness have been outlined. With the increase of deterioration level gears having lower back-up ratio fault can be detected at an early stage, similarly, chances for early fault detection is more for gears having higher pressure angle.