Benoit Delattre scite author profile

La détermination du champ de température sur certaines pièces d'un moteur est obtenue par la résolution d'un problème inverse. Une alternative aux méthodes expérimentales coûteuses utilisées aujourd'hui est la méthode du contrôle optimal qui permet d'estimer le champ de température à partir de quantités mesurées sur pièce. Différents tests préfigurent des possibilités de prédiction et de fiabilité de la méthode. ABSTRACT. We are faced with an inverse problem in the determination of some engine temperature concerning unreacheable pieces. To reduce the experimental costs, PSA tends to develop the theoretical method of optimal control. It allows us to approach the effective temperature using measured physical data and hard-and software possibilities. We collected mathematical and experimental results which provide us a way of evaluating the reliability and accuracy of the method.

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A novel approach for the strain rate dependent modelling of woven composites

Feld

Coussa

Delattre

2018

Composite Structures

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Seam weld shell element model for thin walled structure FE fatigue design

Turlier¹,

Facchinetti²,

Wolf³

et al. 2018

MATEC Web Conf.

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In automotive industry, the FE fatigue analysis of mechanical structures made of steel thin walled parts and seam welded assemblies uses a dedicated technique based on shell element modelling for components and on 1D rigid elements for welds. This method has been validated with several intensive fatigue test campaigns using gas metal arc welded samples with different assemblies, for both bending and torsional loads. The fatigue results are relative to crack initiation at the weld toe with bending normal stress or with longitudinal shear stress for several load ratios. The purpose of the current work is the transposition of the initial method to another FE welded model. In a recent IIW guideline for the assessment of weld root fatigue, a shell element weld model has been proposed for seam weld fatigue assessment in case of weld root crack initiation. The idea is to analyse the possible extension of this FEA weld element model for weld toe fatigue analysis and several comparisons of stress results are detailed and discussed. Different fatigue criteria are used to verify the correlation with the fatigue test results. First, the approach is based on maximum shear stress, then structural stress is calculated and results are compared to IIW S/N curves.

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Benoit Delattre

Morphology, physical, thermal and mechanical properties of the constitutive materials of diesel particulate filters

Application du contrôle optimal à l'identification d'un chargement thermique

A novel approach for the strain rate dependent modelling of woven composites

Seam weld shell element model for thin walled structure FE fatigue design

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