1,112 research outputs found
Quantitative analysis of the debonding structure of soft adhesives
We experimentally investigate the growth dynamics of cavities nucleating
during the first stages of debonding of three different model adhesives. The
material properties of these adhesives range from a more liquid-like material
to a soft viscoelastic solid and are carefully characterized by small strain
oscillatory shear rheology as well as large strain uniaxial extension. The
debonding experiments are performed on a probe tack set-up. Using high contrast
images of the debonding process and precise image analysis tools we quantify
the total projected area of the cavities, the average cavity shape and growth
rate and link these observations to the material properties. These measurements
are then used to access corrected effective stress and strain curves that can
be directly compared to the results from the uniaxial extension
Adhesion and non-linear rheology of adhesives with supramolecular crosslinking points
Soft supramolecular materials are promising for the design of innovative and
highly tunable adhesives. These materials are composed of polymer chains
functionalized by strongly interacting moieties, sometimes called "stickers".
In order to systematically investigate the effect of the presence of
associative groups on the debonding properties of a supramolecular adhesive, a
series of supramolecular model systems has been characterized by probe-tack
tests. These model materials, composed of linear and low dispersity
poly(butylacrylate) chains functionalized in the middle by a single tri-urea
sticker, are able to self-associate by six hydrogen bonds and range in
molecular weight (M n) between 5 and 85 kg/mol. The linear rheology and the
nanostructure of the same materials (called "PnBA3U") was the object of a
previous study 1,2. At room temperature, the association of polymers via
hydrogen bonds induces the formation of rod-like aggregates structured into
bundles for M n \textless{} 40kg/mol and the behavior of a soft elastic
material was observed (G'\textgreater{}\textgreater{}G "and G'~ 0). For
higher M n , the filaments were randomly oriented and polymers displayed a
crossover towards viscous behavior although terminal relaxation was not reached
in the experimental frequency window. All these materials show however similar
adhesive properties characterized by a cohesive mode of failure and low
debonding energies (W adh \textless{}40J/m 2 for a debonding speed of
100m/s). The debonding mechanisms observed during the adhesion tests have
been investigated in detail with an Image tools analysis developed by our group
3. The measure of the projected area covered by cavities growing in the
adhesive layer during debonding can be used to estimate the true stress in the
walls of the cavities and thus, to characterize the in-situ large strain
deformation of the thin layer during the adhesion test itself. This analysis
revealed in particular that the PnBA3U materials with M n \textless{} 40 kg/mol
soften very markedly at large deformation like yield stress fluids, explaining
the low adhesion energies measured for these viscoelastic gels.
Le jeu "soignant" en pédiatrie face aux douleurs iatrogènes: travail de Bachelor
Thème : Les enfants suivis en soins palliatifs pour des maladies chroniques font face à une multitude de soins, dont ils témoignent que les plus douloureux sont ceux employant une aiguille. L’objectif de cette revue de littérature est d’évaluer les bénéfices de l’utilisation de la distraction par le jeu chez l’enfant dans la prise en charge des douleurs iatrogènes induites par l’utilisation de matériel effractif nécessitant une aiguille. Contenus : La recherche documentaire s’est appuyée sur les bases de données PubMed et CINAHL, ainsi que sur le site de Pediadol. Les mots-clés utilisés ont été : enfant, aiguille, douleur, distraction et jeu : sept articles ont été identifiés et retenus. Ces derniers incluent des enfants de 0 à 19 ans ayant reçu un soin utilisant une aiguille (prise de sang, vaccination, …), et pour lesquels une autoévaluation de la douleur a été mesurée. Discussion : L’utilisation d’une distraction est efficace pour diminuer la douleur ressentie par l’enfant lors de soins effractifs utilisant une aiguille. La distraction par le jeu n’a pas été évaluée de manière spécifique, il faisait partie des distractions proposées. Pour une prise en charge efficace de la douleur chez l’enfant, les infirmiers-infirmières doivent considérer le stade de développement de l’enfant afin d’utiliser un outil d’évaluation de la douleur fiable et proposer une distraction adaptée. Il est primordial d’impliquer activement les enfants et leurs parents dans le processus de soins, et d’évaluer leur anxiété avant le soin afin de trouver ensemble la stratégie optimisant la qualité de vie
Pattern Formation During Deformation of a Confined Viscoelastic Layer: From a Viscous Liquid to a Soft Elastic Solid
We study pattern formation during tensile deformation of confined
viscoelastic layers. The use of a model system (PDMS with different degrees of
crosslinking) allows us to go continuously from a viscous liquid to an elastic
solid. We observe two distinct regimes of fingering instabilities: a regime
called "elastic" with interfacial crack propagation where the fingering
wavelength only scales with the film thickness, and a bulk regime called
"viscoelastic" where the fingering instability shows a Saffman-Taylor-like
behavior. We find good quantitative agreement with theory in both cases and
present a reduced parameter describing the transition between the two regimes
and allowing to predict the observed patterns over the whole range of
viscoelastic properties.Comment: 4 pages, 7 figures, typos corrected, figure 5 replace
pH/Temperature control of interpolymer complexation between poly(acrylic acid) and weak polybases in aqueous solutions
International audienc
Theoretical Study of Coupling Mechanisms between Oxygen Diffusion, Chemical Reaction, Mechanical Stresses in a Solid-Gas Reactive System
This paper offers a study of oxygen dissolution into a solid, and its
consequences on the mechanical behaviour of the material. In fact, mechanical
strains strongly influence the oxidation processes and may be, in some
materials, responsible for cracking. To realize this study, mechanical
considerations are introduced into the classical diffusion laws. Simulations
were made for the particular case of uranium dioxide, which undergoes the
chemical fragmentation. According to our simulations, the hypothesis of a
compression stress field into the oxidised UO2 compound near the internal
interface is consistent with some oxidation mechanisms of oxidation
experimentally observed. More generally, this work will be extended to the
simulation to an oxide layer growth on a metallic substrate
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