Author(s)

Aslain Brisco Ngnassi Djami^1*, Wolfgang Nzié¹, Serge Doka Yamigno²

¹Department of Fundamental Sciences and Techniques of Engineer, Chemical Engineering and Mineral Industries School, University of Ngaoundere, Ngaoundere, Cameroon.
²Department of Physics, Faculty of Science, University of Ngaoundere, Ngaoundere, Cameroon.

Evaluating the reliability of a system requires knowledge of the failure modes to which it is subjected. Complex topology systems generally require a high level of availability, which is a function of the arrangement of elements (components) in the system. To avoid serious failures for such complex systems, recourse can be had to the redundancy techniques available in the literature. These techniques help to improve system reliability, without affecting the reliability of system components. This paper is interested in the proposal of a model for evaluating the failure rate of a standby multi-components system and in improving the reliability of mechanical systems, arranged in a topology (series, parallel, or mixed).

Reliability, Modeling, Topology, Redundancy, Availability, Failure Rate

Djami, A. , Nzié, W. and Yamigno, S. (2023) Modeling the Failure Rate of a Standby Multi-Component System and Improving Reliability. Modern Mechanical Engineering, 13, 21-33. doi: 10.4236/mme.2023.131002.