Reliability Analysis for the Dependent Competing Failure With Wear Model and its Application to the Turbine and Worm System

Abstract: Many systems are usually subjected to the combined effects of degradation and random shocks at the same time. Their failures are the competitive result of soft failure caused by degradation and hard failure caused by shocks. For operating machinery, wear failure is the main failure mechanism, and the machine is also subject to shock during the wear process. This paper proposes a new generalized surface wear model in combination with dependent competing failure processes; this proposed model is different from t… Show more

“…In practice, soft failure and hard failure are DCFP due to the effect of the same shock load. More and more researchers [13][14][15][16][17][18][19][20][21][22] acknowledged that random shock has an essential effect on degeneration failure and sudden failure. Lin 13 studied the general dependences between the degradation and two types of random shocks (extreme shocks and cumulative shocks).…”

“…Dong 17 studied a nonrepairable system subject to DCFP, where the degradation process is described by Wiener process, and the shock process is non-homogeneous Poisson process. Lyu 18 applied the reliability model of DCFP to the Turbine and Worm System. However, a system with high reliability and long life can resist small shock loads due to material strength.…”

Reliability modeling for planetary gear transmission system considering dependent failure processes

“…In practice, soft failure and hard failure are DCFP due to the effect of the same shock load. More and more researchers [13][14][15][16][17][18][19][20][21][22] acknowledged that random shock has an essential effect on degeneration failure and sudden failure. Lin 13 studied the general dependences between the degradation and two types of random shocks (extreme shocks and cumulative shocks).…”

“…Dong 17 studied a nonrepairable system subject to DCFP, where the degradation process is described by Wiener process, and the shock process is non-homogeneous Poisson process. Lyu 18 applied the reliability model of DCFP to the Turbine and Worm System. However, a system with high reliability and long life can resist small shock loads due to material strength.…”

Reliability modeling for planetary gear transmission system considering dependent failure processes

Effect of Carburized Layer Depth on the Wear Reliability of Cams

Competing risks-based resilience approach for multi-state systems under multiple shocks