Influence of the polypropylene structure on the replication of nanostructures by injection molding

In polymer protection pieces, polycarbonate is often used for its transparency and its high impact resistance. However, when dew appears it degrades light transmission and thus transparency. To solve this problem, anti-fogging surfaces are developed. To further understand the dew formation in natural environment in order to design high efficiency anti-fogging surfaces on polycarbonate, a recently designed dew tracking setup giving dew pictures and a digital imaging procedure allowing reliable and highly accurate droplet measurements were developed. Thanks to this setup, dew formation conditions such as relative humidity level and air temperature can be chosen and studied. Particular attention is paid to the evolution of the number of droplets according to the relative humidity and how it explains the droplet growth rate. The influence of the relative humidity (RH) on the growth rate of non-coalescing dropwise condensation has already been observed. This paper is based on these existing results as a comparison to validate the experimental setup and the post-processing analysis. We shall also use the number of droplets to further explain the role of the RH on condensation dynamics. Moreover, by applying a light subcooling, the growth kinetics were slowed down in order to observe every characteristic phase in detail and even particular intermediate phases.

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“…The polycarbonate samples were replicated from a mirror polish with a low roughness injection mold [21].…”

Section: Surface Characteristicsmentioning

confidence: 99%

Design of an environment controlled dew tracking setup to emphasize the role of the relative humidity on breath figures dynamics

et al. 2018

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“…5) [37]. Cette indice traduit une viscosité sous faible vitesse de cisaillement (quelques s À1 ) alors que les injections se réalisent parfois à des valeurs supérieures à 10 5 s À1 , il est donc particulièrement important de connaître ce comportement dans les conditions réelles d'injection, ce d'autant plus que certains polymères de MFI très différents peuvent avoir une viscosité relativement proche pour des vitesses de cisaillement élevées [38]. Ainsi, les études rhéologiques en lien avec la taille des structures à remplir se multiplient pour répondre aux problématiques de remplissage de microcavités [39,40].…”

Section: Modèles Lois Rhéologiques Référencesunclassified

“…Ces comparaisons sont satisfaisantes quand il s'agit de motifs très bien définis et périodiques comme ceux obtenus par LIGA, en revanche quand cela fait référence à des textures moins régulières et multi-échelles, cette approche locale ne convient plus. Il est indispensable de mettre en oeuvre des outils statistiques susceptibles de décrire la topographie de surface au regard des caractéristiques de la forme souhaitée (paramètres d'anisotropie [38]), de la fonction envisagée [4] et de pouvoir faire des comparaisons quantitatives entre le moule et la pièce aux différentes échelles tels que présentés sur la figure 14, par exemple.…”

Section: Quantification Du Taux De Réplicationunclassified

Synthèse bibliographique : micro-texturation et microinjection de thermoplastiques

Vera

Brulez

Contraires

et al. 2017

Matériaux & Techniques

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La fonctionnalisation de surface des matériaux et notamment des polymères fait l'objet de recherches intenses dans de nombreux secteurs tels que l'industrie du biomédical ou du transport afin de conférer aux pièces des propriétés spécifiques comme l'antibuée, la réduction du frottement ou le dégivrage… Dans le cas d'une production en grande série de pièces polymères fonctionnalisées, il est préférable, pour des questions de coûts, de générer des textures, au moyen d'une technique de reproduction d'empreinte comme l'injection plastique. Toutefois les fonctions requises nécessitent parfois la reproduction de dimensions microniques voire submicroniques poussant à ses limites la maîtrise du procédé conventionnel, avec les caractéristiques de l'injection de micro-pièces, mais aussi des spécificités propres à la micro-texturation. L'objet de cette revue bibliographique est de couvrir le large spectre des problèmes techniques et scientifiques associés à la micro-texturation des pièces plastiques. Les techniques d'usinage de ces micro-motifs sur les outillages et le rôle des revêtements est particulièrement décrit ainsi que le besoin de mettre en œuvre des approches spécifiques de caractérisation topographique des textures. L'influence des paramètres du procédé d'injection est aussi discutée, soulignant la nécessité d'appréhender la micro-texturation des pièces plastiques avec une nouvelle grille de lecture de la microinjection.

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“…The polypropylene described in Table 2 is injected in the cavity illustrated in Figures 3. This part has been experimentally used for characterizing micro-features replication [16,31]: the rectangular plaque is 50mm long and 15mm wide; its thickness is 1mm. The piece exhibits micro features in the central square zone of 8mm.…”

Section: Computations At Macro-scale With Commercial Softwarementioning

confidence: 99%

“…Computations were performed with polypropylene (PP) which is one of the most common thermoplastic polymers used in a variety of products and is easily and widely transformed by the injection moulding. Moreover, it has been recently used to obtain replication of submicrometer features by injection (microinjection) molding [36,31]. For example polypropylene is used for biomedical devices which have a short time contact with drugs (disposable syringes and catheters) where the aim is to have a plastic hydrophobic surface to improve the displacement of the plunger inside the syringe.…”

Section: Introductionmentioning

confidence: 99%

A multiphase Eulerian approach for modelling the polymer injection into a textured mould

et al. 2016

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International audienceMicro-injection moulding is frequently used for the fabrication of devices in many different fields such as micro-medical technologies, micro-optics and micro-mechanics thanks to its effectiveness for mass production. This work focuses mainly on offering numerical methodology to model the injection into textured moulds. Such approach can predict the different filling scenarios of the micro-details and consequently can provide optimal operating conditions (mould and melt temperatures, flow rate) according to the desired final part quality. In fact, numerical simulations made with industrial software can only describe the injection process at the macroscopic scale where the micro details are not detected. Although the melt temperature and front evolution are tracked throughout time, neither the micro details nor the local heat transfer are properly represented. Since the latter impacts the local viscosity and solidification, simulation of both mould and cavity temperature evolutions is primordial to insure a complete and accurate representation of textured mould filling. The present computations are made at both macro- and micro- scales by using a full Eulerian approach in which the three phases (melt, mould and air) are described by level-set functions. Our numerical approach is checked to the replication of a textured mould for which two dimensional computations are relevant. This replication is properly modelled by taking into account viscosity dependence with temperature in the thermal boundary layer at the melt/mould interface. In particular the expected solidification below a specific temperature is taken into account by either increasing drastically the viscosity or by imposing a vanishing velocity by penalty method. The influence of flow rate and mould temperature are also analysed whereas it is shown that the surface tension can be neglected during injection stage

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Influence of the polypropylene structure on the replication of nanostructures by injection molding

Cited by 14 publications

References 24 publications

Design of an environment controlled dew tracking setup to emphasize the role of the relative humidity on breath figures dynamics

Design of an environment controlled dew tracking setup to emphasize the role of the relative humidity on breath figures dynamics

Synthèse bibliographique : micro-texturation et microinjection de thermoplastiques

A multiphase Eulerian approach for modelling the polymer injection into a textured mould

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