Abstract
Cracks in a cracked gear may further propagate by a tiny length in a very short time for several reasons, such as material fatigue and load fluctuations. In this paper, this dynamic process is defined as transient propagation of cracks. This research aims to calculate the time-varying mesh stiffness of gears when transient propagation of cracks arises, which has not been extensively studied in existing literatures. The transient propagation of cracks is modelled. An improved potential energy method is proposed by incorporating the propagation model into the potential energy method. The improved method can also be utilised to calculate the mesh stiffness of gears when transient propagation of cracks arises. Different transient propagation models are considered to simulate the propagation of cracks in a short amount of time. Different deterioration levels of cracks before transient propagation and different lengths and models of transient propagation are also examined. The variation rules of mesh stiffness caused by the transient propagation of cracks are summarised. The influence of the deterioration level of cracks on mesh stiffness variation when transient propagation arises is obtained. Simulation results show that the proposed method accurately calculates time-varying mesh stiffness when transient propagation of cracks arises. Furthermore, the method improves the monitoring of further propagation of cracks in gears from the perspective of time-varying mesh stiffness.
Highlights
Root crack, a typical fault in gear sets, may result from poor operating conditions, such as inadequate lubrication, excessive applied torque, poor specifications, material defects, and manufacturing or installation problems [1]
Time-varying mesh stiffness, which is caused by the periodic change of working teeth pairs, is an important parameter in the gear system
Before presenting our improved potential energy method, we introduce and describe transient propagation of cracks (TPOC)
Summary
A typical fault in gear sets, may result from poor operating conditions, such as inadequate lubrication, excessive applied torque, poor specifications, material defects, and manufacturing or installation problems [1]. Time-varying mesh stiffness, which is caused by the periodic change of working teeth pairs, is an important parameter in the gear system. It brings about inherited periodic internal excitations of the gear system [3]; on the other hand, time-varying mesh stiffness decreases when a gear crack appears [5]. Both crack propagation and the resultant reduction in time-varying mesh stiffness have elicited the interest of many researchers [6, 7].
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