Time/frequency analysis of contact-friction instabilities. Application to automotive brake squeal.

Robust design of silent brakes is a current industrial challenge. Braking systems enter in the more general context of unstable systems featuring contact friction interaction. Their simulation requires time integra- tion schemes usually not adapted to combination of large industrial models (over 600,000 DOF) and long simulations (over 150,000 time steps). The paper first discusses selection of the contact/friction model and adaptations of the integration scheme. The relation between the nominal steady state tangent modes and the system evolution over time is then evaluated. The time response shows a nearly periodic response that is analyzed as a limit cycle. It is shown that instantaneous dynamic stability predictions show stable/unstable transitions due to changes in the contact/friction state. These transitions are thought to give an understanding of the mechanism that limits levels for these self sustained vibrations. The concept is exploited to suggest novel ways to analyze complex modes

Design oriented simulation of contact-friction instabilities in application to realistic brake assemblies

This paper presents advances in non-linear simulations for systems with contact-friction, with an application to brake squeal. A method is proposed to orient component structural modifications from brake assembly simulations in the frequency and time domains. A reduction method implementing explicitly component-wise degrees of freedom at the system level allows quick parametric analyses giving modification clues. The effect of the modification is then validated in the time domain where non-linearities can be fully considered. A reduction method adapted for models showing local non-linearities is purposely presented along with an optimization of a modified non linear Newmark scheme to make such computation possible for industrial models. The paper then illustrates the importance of structural effects in brake squeal, and suggests solutions

Tolerance analysis approach based on the classification of uncertainty (aleatory / epistemic)

Uncertainty is ubiquitous in tolerance analysis problem. This paper deals with tolerance analysis formulation, more particularly, with the uncertainty which is necessary to take into account into the foundation of this formulation. It presents: a brief view of the uncertainty classification: Aleatory uncertainty comes from the inherent uncertain nature and phenomena, and epistemic uncertainty comes from the lack of knowledge, a formulation of the tolerance analysis problem based on this classification, its development: Aleatory uncertainty is modeled by probability distributions while epistemic uncertainty is modeled by intervals; Monte Carlo simulation is employed for probabilistic analysis while nonlinear optimization is used for interval analysis.“AHTOLA” project (ANR-11- MONU-013

Compatibility measure and penalized contact resolution for incompatible interfaces

Handling of large industrial mechanical assemblies implies structure interactions commonly modeled with contact formulations. In cases where component interfaces are discretized using non conforming meshes, classical contact solutions have difficulties producing correct contact pressure fields. The method presented in this paper gives a relevant measure of interface compatibility and shows how it can be exploited to obtain regular contact pressures or limit over-integration in the contact formulation

Design oriented simulation of contact-friction instabilities in application to realistic brake assemblies

This paper presents advances in non-linear simulations for systems with contact-friction, with an application to brake squeal. A method is proposed to orient component structural modifications from brake assembly simulations in the frequency and time domains. A reduction method implementing explicitly component-wise degrees of freedom at the system level allows quick parametric analyses giving modification clues. The effect of the modification is then validated in the time domain where non-linearities can be fully considered. A reduction method adapted for models showing local non-linearities is purposely presented along with an optimization of a modified non linear Newmark scheme to make such computation possible for industrial models. The paper then illustrates the importance of structural effects in brake squeal, and suggests solutions

Time/frequency analysis of contact-friction instabilities. Application to automotive brake squeal.

Robust design of silent brakes is a current industrial challenge. Braking systems enter in the more general context of unstable systems featuring contact friction interaction. Their simulation requires time integra- tion schemes usually not adapted to combination of large industrial models (over 600,000 DOF) and long simulations (over 150,000 time steps). The paper first discusses selection of the contact/friction model and adaptations of the integration scheme. The relation between the nominal steady state tangent modes and the system evolution over time is then evaluated. The time response shows a nearly periodic response that is analyzed as a limit cycle. It is shown that instantaneous dynamic stability predictions show stable/unstable transitions due to changes in the contact/friction state. These transitions are thought to give an understanding of the mechanism that limits levels for these self sustained vibrations. The concept is exploited to suggest novel ways to analyze complex modes

MAXIMIZATION OF PULL-IN VOLTAGE OF MICRO-ELECTROMECHANICAL STRUCTURES USING TOPOLOGY OPTIMIZATION

The design problem consists in maximizing the pull-in voltage using topology optimization method, which is formulated as an optimal material distribution. In addition to the classical volume constraint, different structural constraints could be taken into consideration. Sensitivity analysis is one of the key issues of the optimization process and is performed with the formulation of eigenvalue topology optimization problems. Here the paper investigates topology optimization of strongly coupled electromechanical systems. To avoid important modifications of the electric field by the optimization process, this first study considers a non design electrode and use topology optimization to design an optimal suspension structure. Solution procedure of the optimization problem is based on CONLIN optimizer using a sequential convex programming. This method that has proved its efficiency in many structural problems (sizing, shape) is here tailored to strongly coupled multiphysics design problems under consideration. The choice of appropriate explicit convex approximations schemes for multiphysic problems is investigated. The proposed method is illustrated and validated on microbeam optimization applications

Contribution au développement de microcapteurs intégrés de viscoélasticité de fluides

Les propriétés viscoélastiques des fluides déterminent leur écoulement. L étude de ces propriétés a de nombreuses applications industrielles et académiques qui concernent la matière dite molle (polymères, colloïdes, tensioactifs, protéines, ...). L approche proposée permet d'étudier ces propriétés sur une gamme de fréquence allant de 1 à 100 kHz. La méthode utilise la mesure de la vibration d une microstructure actionnée électromagnétiquement et immergée dans le fluide à caractériser. La réponse en fréquence du système mécanique, mesurée optiquement ou électriquement, est caractéristique du milieu dans lequel la structure est immergée. Une méthode analytique dédiée aux micropoutres, pour l extraction des propriétés rhéologiques du milieu, a été améliorée tout au long de la thèse.La méthode analytique développée, pour être appliquée, nécessite la précision d un système optique complexe pour mesurer sans artefact les propriétés mécaniques de l interaction micropoutre-liquide. Ainsi les liquides opaques ne peuvent être caractérisés avec cette approche. De plus la mesure peut difficilement être intégrée dans un dispositif portable tout-électronique. Afin de pallier ces difficultés et de proposer une mesure de la viscoélasticité en milieu opaque, la stratégie de mesure du capteur jusqu au traitement des signaux ont été réévalués : (1) des microstructures en U ont été fabriquées, (2) une méthode de mesure intégrée a été mise en place et (3) une méthode de traitement à fréquence unique a été utilisée. Finalement, un liquide opaque viscoélastique, le yaourt, a pu être caractérisé in-situ tout au long de la fermentation lactique permettant de démontrer la validité et l applicabilité de la méthode mise en œuvre pour le suivi en temps réel de la viscoélasticité.The study of viscoelastic properties has many industrial and academic applications related to "soft matter" like polymers, colloids, surfactants or proteins. The present approach measures these properties in a frequency range from 1 to 100 kHz. The method uses the measurement of the vibration of a microstructure actuated electromagnetically and immersed in the fluid that has to be characterized. The frequency response of the mechanical system, which is measured optically or electrically, is characteristic of the environment in which the structure is immersed in. An analytical method dedicated to microcantilevers for the extraction of the rheological properties has been improved during this PhD thesis.The analytical method developed requires the accuracy of a complex optical system for measuring without artifact the mechanical properties of microcantilever-liquid interaction. Thus opaque liquids cannot be characterized with this sytem. In addition, the measurement cannot easily be integrated. To overcome these difficulties and provide the measurement of viscoelasticity into opaque medium, some strategy was reassessed: (1) U shaped microstructures were fabricated; (2) an integrated measurement method was developed and (3) a single frequency method was used to calculate the viscoelasticity.Finally, a viscoelastic and opaque liquid, such as yogurt, has been characterized in situ during the lactic fermentation to demonstrate the validity and the applicability of the method for the real-time monitoring of viscoelasticity.BORDEAUX1-Bib.electronique (335229901) / SudocSudocFranceF

Noniterative approach to the total asymmetric synthesis of 15-carbon polyketides and analogs with high stereodiversity

Starting from inexpensive furan and furfuryl alcohol, a noniterative approach to the synthesis of pentadeca-1,3,5,7,9,11,13,15-octols and their derivatives has been developed. The method relies upon the double [4+3]-cycloaddition of 1,1,3-trichloro-2-oxylallyl cation with 2,2'-methylenedifuran and conversion of the adducts into meso and (±)-threo-1,1'-methylenebis (cis- and trans-4,6-dihydroxycyclohept-1-ene) derivatives. The latter undergo oxidative cleavage of their alkene moieties, generating 5-hydroxy-7-oxoaldehydes that are reduced diastereoselectively into either syn or anti-5,7-diols. Asymmetry is realized using either chiral desymmetrization with Sharpless asymmetric dihydroxylation or by kinetic resolution of polyols using lipase-catalyzed acetylations. All of the possible stereomeric pentadeca-1,3,5,7,9,11,13,15-octols and derivatives can be obtained with high stereoselectivity applying simple operations, thus demonstrating the high stereodiversity of this new, noniterative approach to the asymmetric synthesis of long-chain polyketide

Retention of the virus-derived sequences in the nuclear genome of grapevine as a potential pathway to virus resistance

<p>Abstract</p> <p>Background</p> <p>Previous studies have revealed a wide-spread occurence of the partial and complete genomes of the reverse-transcribing pararetroviruses in the nuclear genomes of herbaceous plants. Although the absence of the virus-encoded integrases attests to the random and incidental incorporation of the viral sequences, their presence could have functional implications for the virus-host interactions.</p> <p>Hypothesis</p> <p>Analyses of two nuclear genomes of grapevine revealed multiple events of horizontal gene transfer from pararetroviruses. The ~200–800 bp inserts that corresponded to partial ORFs encoding reverse transcriptase apparently derived from unknown or extinct caulimoviruses and tungroviruses, were found in 11 grapevine chromosomes. In contrast to the previous reports, no reliable cases of the inserts derived from the positive-strand RNA viruses were found. Because grapevine is known to be infected by the diverse positive-strand RNA viruses, but not pararetroviruses, we hypothesize that pararetroviral inserts have conferred host resistance to these viruses. Furthermore, we propose that such resistance involves RNA interference-related mechanisms acting via small RNA-mediated methylation of pararetroviral DNAs and/or via degradation of the viral mRNAs.</p> <p>Conclusion</p> <p>The pararetroviral sequences in plant genomes may be maintained due to the benefits of virus resistance to this class of viruses conferred by their presence. Such resistance could be particularly significant for the woody plants that must withstand years- to centuries-long virus assault. Experimental research into the RNA interference pathways involving the integrated pararetroviral inserts is required to test this hypothesis.</p> <p>Reviewers</p> <p>This article was reviewed by Arcady R. Mushegian, I. King Jordan, and Eugene V. Koonin.</p