Overview
FrançaisABSTRACT
Designing mechanical products and civil engineering structures is faced with the uncertainty. When the data are random, the probabilistic approach calculates a probability of failure and importance factors. Methods of approximation are proposed for an economic and validated implementation, whatever the models of the data and of the behavior. This article describes the stress - strength method and introduces the concept of reliability index. It treats the more general case FORM / SORM and the link between index and probability. A simple mechanical system is used as reference example and shows how, beyond the application of rules, information obtained allows the designer an optimal design for a reliability objective given.
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Read the articleAUTHOR
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Maurice LEMAIRE: Professor Emeritus at the French Institute for Advanced Mechanics - Scientific advisor, Phimeca Engineering
INTRODUCTION
The designer's art is to propose a technical solution that satisfies functional requirements and guarantees safety for goods, people and the environment. Functional requirements must ensure that the systems in question operate correctly, and among these is reliability, i.e. the ability of a device to perform a required function under given conditions, for a given period of time. The designer's role is to optimize sizing by justifying sufficient reliability in terms of risk, i.e. the consequences of an undesirable event: absolute reliability cannot exist, and there is always the possibility of failure. Today, we can say that the precautionary principle only consists in demonstrating that all current knowledge has been applied to ensure that the gain obtained by the success of the device is sufficient to accept the cost of the possible failure due to its malfunction. These few lines set out the framework of the approach: it proposes an approach to the theoretical reliability of mechanical systems, but it should be noted that it can be applied in many other fields. By theoretical reliability, we mean everything that can be simulated by modeling to predict possible behaviors. It complements practical reliability, which is assimilated to the quality approach: theoretical reliability is conditioned by practical reliability, by quality assurance. Designing a mechanical system and calculating its parameters is a search for a dimensioning whose reliability must be justified. The article
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KEYWORDS
design | probabilistic methods | stress-strength | Civil engineering | mechanical engineering
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Bibliography
Software tools
Structural Safety 28 (2006) has published a special issue summarizing 10 software packages available worldwide for stochastic calculation. Each software package is presented, and an illustration shows what can be expected from it for significant industrial applications. It should be noted that the "out-of-the-lab" offer is still limited to mechano-fiabilistic coupling using FORM/SORM methods, direct and conditioned Monte-Carlo...
Standards and norms
Eurocode 0: Fundamentals of structural design (EN 1990) – http://www.afnor.org/profils/activite/construction/les-eurocodes/les-eurocodes .
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