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Evaluating Degradation Coefficients from Existing System Models

Jude A. Osara, Michael D. Bryant

2021Applied Mechanics11 citationsDOIOpen Access PDF

Abstract

A generalization of the Degradation-Entropy Generation (DEG) theorem to multi-disciplinary multi-physics system-process analysis via a combination with pre-existing system models is presented in this article. Existing models and the DEG methodology are reviewed, and a method for evaluating degradation coefficients Bi is proposed. These coefficients characterize the system’s transformation based on active dissipative mechanisms, including temperature effects. The consistency of entropy generation in characterizing degradation is then inherited by these often-empirical system models, thereby rendering them more robust and applicable to similar systems without the need for numerous tests and measurements for model corrections. The approach applies to all systems and can quickly analyze and predict a system’s performance and degradation, even in the absence of experimental data (using known properties and material constants). Demonstrated applications herein include mechanically loaded systems (frictional wear, grease shearing, fatigue loading), electrochemical energy systems, thermal processes, and others.

Topics & Concepts

Shearing (physics)Dissipative systemRendering (computer graphics)Computer scienceDegradation (telecommunications)Entropy (arrow of time)Materials scienceBiological systemThermodynamicsPhysicsArtificial intelligenceTelecommunicationsBiologyAdvanced Battery Technologies ResearchProbabilistic and Robust Engineering DesignFatigue and fracture mechanics
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