Suivi de température in-situ et approche énergétique du soudage par ultrasons appliqué aux papiers/cartons - Temperature monitoring and energetic analysis of the ultrasonic welding applied to papers and paperboardsDocument Adobe PDFCe stage a pour but de développer puis d’optimiser une méthode de mesure in-situ permettant de relever la température à l’interface de soudage pendant l’assemblage de papiers/cartons. Elle présente un fort potentiel en vue de mieux comprendre le soudage US des papiers/cartons, notamment concernant l’identification des contributions du procédé et du matériau à la formation des joints soudés. // The objective is to develop and optimize an in-situ temperature monitoring which can record the temperature at the welding interface during the US welding of papers. Such a method could be highly valuable to understand the phenomena intervening when welding papers. In particular, it could lead to a better understanding regarding what are the respective contributions of process inputs and material properties in the establishment of the welded joints.
Life cycle analysis of alternative fibres in the development of high technical strength and high added value papersDocument Adobe PDFIn the framework of a collaborative project with a European industrial partner producing hightechnicity papers, the LGP2 laboratory (Laboratory of Pulp and Paper Science and Graphic Arts, UMRCNRS-Grenoble INP 5518) offers a 6-month internship forM2 students. The objective of this project isto propose solutions that can be transferred on an industrial scale in the short term, to a companyseeking to improve the end-use properties of the materials produced by committing to an eco-designapproach. This study is part of a larger project and follows a previous collaboration with the samepartners. Despite positive results and patent filing, there are still questions and challenges to overcomefor the up-scaling of these results on production paper machine. It will build on the results alreadyobtained, with the objective to optimize and transfer the most promising results to a pilot andindustrial scale.
A novel approach for production of micro/nanofibrillated cellulose (M/NFC)Document Adobe PDFThe objective of this study is to propose an innovative low -energy and environmentallyfriendly combinative process for the production of M/NFC from bleached Eucalyptus bark(EB) and Beechwood (BW). The main originality of the project is to compare producedM/NFCswith M/NFCs already produced from unbleached EB and BW. The main goal is to study the effect of lignin on the properties of M/NFCs. Applications in the fields of packaging (films or nanopapers) and wood particleboard (tannins-based adhesives) will be considered in the project.
Bamboo fibers valorizationDocument Adobe PDFSince last decade, the interest for bio-sourced materials increased in composite sciences. These materials could answer to social and economic challenges, especially in environmental expectations. Purposes are to get the same behavior than fossil composites but less expensive, lighter and ecofriendly. This internship aims to characterize micro and nano phenomena, with for example AFM (Atomic force microscope) of bio composite, (bamboo’s fiber like fillers) and to study their effects on mechanical behavior at macroscale.
Etude préliminaire sur l’intensification du transfert gaz/liquide par ultrasons haute fréquenceDocument Adobe PDFL’objectif principal de ce stage est d’étudier le transfert gaz/liquide en présence d’une irradiation ultrasonore de haute fréquence. La première étape consistera à prendre en mains un pilote dédié et à proposer une méthodologie de détermination du cœfficient de transfert volumétrique en mode silencieux, c’est-à-dire sans ultrason (transfert de gaz mis en œuvre, validation des mesures, caractérisation des capteurs, acquisition de données, exploitation des données,…).
Study of the effectiveness of sulfonation in the production of microfibrillated cellulose containing lignin (LCMF) by ultrafine wet grindingDocument Adobe PDFCurrently, research is oriented toward the use of microfibrillated cellulose (MFC) as a replacement for fossil-fuel based materials, e.g., in composites, coatings and packaging materials.The typical raw material is a chemically delignified, bleached cellulose pulp, although more and more research is oriented towards the study of the potential use of unbleached pulp. Indeed, several efforts have been made to find cost-effective methods and raw materials to produce MFC in a more environmentally friendly way. Actually, the extraction of cellulose nanofibrils containing lignin (LCMF) makes possible the use of a cheaper raw material while eliminating the bleaching stage. In fact, the effect of the presence of lignin is still debated in the scientific literature...
A+Augmenter la taille du texteA-Réduire la taille du texteImprimer le documentEnvoyer cette page par mailPartagez cet articleFacebookTwitterLinked In
École internationale
du papier, de la communication imprimée et des biomatériaux
461 rue de la Papeterie - CS 10065 - 38402 Saint Martin d'Hères Cedex - FRANCE
Tél. 33 (0)4 76 82 69 00
Nos sites
e-Services
