The lectures will contain an introduction to materials : ceramics, metals, polymers and composites, including some general knowledge, a description of elaboration methods, their (micro)structure, their properties, and some examples of applications.

The students will use the concepts introduced in this course to perform a literature survey and write a bibliographic report about a material of their choice.

Visit the full page about this course

Visit the full page about this course

Based on lectures & tutorials on face-to-face, the students learn the basic knowledge on phase transitions in Polymer Materials in order to well-understand the impact on the final properties of polymeric materials and their applications. The student is proposed to develop some thinking through examples on polymer blends and block copolymer self-assembly. 

Visit the full page about this course

Based on Lectures and tutorials face-to-face. 

1. Reactivity between solids. Diffusion in solids. Use of diagrams to build an elaboration strategy, 
2. Methods to synthesize polycrystalline materials, 
3. Single crystals, 
4. Thin films.

This theoretical class will be complemented by a hands-on training in the lab in another course unit. 

Visit the full page about this course

Visit the full page about this course

This course is developed to introduce eco-friendly design and Life Cycle Assessment (LCA) with a focus on materials.

› The lecture section (CM) comprises 3 modules : 

• The first one is on the concept of sustainable development, 
• The second module is on the tools of ecodesign, with a focus on materials. The different methods to apply ecodesign are presented. The life cycle assessment methodology is presented,  
• The third module is on the discovery and the use of an LCA software : OpenLCA. The practice section (TD) contains 3 types of exercises : (i) Class discussion on case ; (ii) Group presentations on LCA publications about a chosen material ; (iii) Assignment on LCA to compare two types of plastic bottles using OpenLCA software. 

Visit the full page about this course

Green Chemistry is the design of chemical products and processes that reduce or eliminate the use and generation of hazardous substances.

In this, the course’s goal is to provide basic knowledge about the principles of green chemistry, with a basis in the molecular and materials chemistry, and examines alternative chemistry solutions to support a sustainable development.

The level of understanding should be such that the students in their professional career critically can participate in discussions regarding selection and design of chemical methods (i.e., reactions, processes) for enlarged sustainability in industrial production of chemicals, materials and fuels, and to avoid environmental stress caused by pollution and energy-related problems.

Students acquire the competence to think of chemistry as a sustainable activity.

Basic knowledge in catalysis and organic chemistry is beneficial but not necessary.

The course content will include a series of lectures using Power Point slides, case studies, exercises and in-class oral presentations by the students. Students should keep up with assigned reading and ask questions in class or by email.

Visit the full page about this course

Lab work. This course is an application of the classes followed in material elaboration and more specifically in polymer chemistry.

The synthesis and characterization of different polymers will be performed and linked to the theoretical knowledge.

This practical class is divided in 4 experiments of 8 hours and final individual practical exam. The experiments are :

• Reactivity ratio in radical copolymerization, 
  
• Controlled radical polymerization, 
  
• Emulsion Polymerization, 
  
• Thermosenstive polymers. 
  

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Apporter la formation linguistique et culturelle qui favorisera l’adaptation des étudiants à la vie universitaire et extra-universitaire.

L’enseignement est axé sur le français général, c’est-à-dire la langue de communication, orale et écrite, et la méthodologie universitaire en français.

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

This course introduces X-Ray diffraction as a method for the determination of crystal structures. Through lectures and tutorials, it covers Bragg’s Law, the use of the reciprocal space and the structure factor to interpret XRD patterns. A short presentation of experimental set-ups is also included.

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

› Thématiques : Organigramme, Planification, Coûtenance, Risques dans le cadre des projets industriels.

› Format d’enseignement : Cours Magistraux (CM) / Travaux Dirigés (TD) / Utilisation d’un logiciel de planification (type MSProject, ProjectLibre, …).

• Présentation des choix de protection différents selon la stratégie de l’entreprise (savoir-faire secret, propriété intellectuelle …), 
• Les règles spécifiques au brevet (qu’est-ce qu’un brevet ? que peut-on breveter ? conditions de la brevetabilité ?), 
• Les inventions de salariés, 
• Un exemple de brevet sera présenté de manière à comprendre comment est rédigé un brevet.

Visit the full page about this course

Visit the full page about this course

Students will discover polymer based composite materials. 

The objective of these courses and tutorials is to give them all the knowledge to identify these materials and make choices to meet a specific application (environment, mechanical and thermal stresses, industrial sector, manufacturing processes, production rates). 

The 9 hours of lecture are organized into 4,5 hours of lessons illustrated by examples of composites constituents, parts, processes, ... and 4,5 hours of tutorials focused on applications. 

Visit the full page about this course

During this course, master students will acquire basic knowledge on composites, their composition, architecture, main properties and main use.

In a second part, we will establish the mixing laws used to describe the mechanical behaviour of filled polymers and unidirectional composites. Particular emphasis will be put on simplifying assumptions that limit the use of these models.

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Characterization of the molecular weight and of the spatial extent of chain molecules. 

› Course's contents : 

1. Introduction : 

a. Reminders, 

b. Molecular weights and molecular weight averages, 

c. Measurement of molecular weights. 

2. Polymer conformations

3. Light scattering by polymer solutions

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

In the first part of the semester, this teaching unit will introduce the students to microscopy techniques through a series of lectures.

In the second part, the students will use Atomic Force Microscopy to analyse a sample in a short project.

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Préparation à la certification en anglais, Test of English for International Communication (TOEIC).  

Le TOEIC mesure les compétences de compréhension écrite et orale pour les niveaux débutant à avancé et détermine si une personne peut communiquer en anglais efficacement et avec aisance dans un contexte professionnel. 

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Cette UE sera effectué par deux enseignants, qui permettront une vision plus globale de la corrosion avec deux approches complémentaires.

Les principaux types de corrosion (la corrosion générale, les piqûres, etc…) seront décrites de manière générale pour les milieux secs et humides.

Les conditions de protection seront abordées avec une attention particulière à la protection contre la corrosion au moyen de revêtements tels que la galvanisation et l'anodisation.

La prévision de ces phénomènes d’oxydation sera effectuée par l’étude des diagrammes E = f (pH) et de la cinétique électrochimique associée.

Enfin, les principaux essais de corrosion accélérée utilisés dans l'industrie, tels que les essais au brouillard salin et les essais climatiques, seront décrits.

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

The aim is to understand the metallurgical phenomena that occur during equilibrium or non-equilibrium phase transformations of steels and aluminum alloys, which induce consequences on their mechanical properties.

Teaching takes place in the form of lectures and tutorials. The evaluation is formalized by a final exam.

Visit the full page about this course

This unit is designed to provide the student with a basic knowledge of ceramic materials and glasses.

Ceramics are by far the most abundant man-made materials. The objective is to provide a general overview of this third major class of solid materials (the first two being metals and polymers), from their development to their use.

The physical characterisation and properties of these materials are recalled as well as the specific elaboration techniques such as sintering. The behaviour of technical ceramics for thermomechanical use is discussed, with particular emphasis on their fracture behaviour and the Weilbull statistical model for predicting fatigue and creep life at high temperatures.

Visit the full page about this course

Visit the full page about this course

Based on results of research projects on thermoset matrices and / or composites. 

› Course Description: 

• Prototype mold for curing rubber ring in epoxy high Tg with enhanced thermal conductivity, 
• Lightening protection for aeronautic applications with nano silver wire, 
• Formulation of epoxy amine for enhancement of impact resistance of helmet defense aircraft, 
• Liquid Silicone Rubber (LSR): a versatile transparent thermoset, 
• High temperature thermoset for aeronautic application based on triazine cycle, 
• Reversible thermoset based on Diels Alder chemistry. 

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

• Élaboration d'un diaporama servant de support à une présentation scientifique, 
• Apprentissage de vocabulaire de spécialité, 
• Élaboration d’un CV, 
• Entretien d’embauche. 

Visit the full page about this course

To provide students with the linguistic tools they need to integrate successfully into both university life and extra-curricular activities.  Better comprehension and an ability to express themselves, both orally and in written form, are expected.

Each lesson develops and enriches the student's language skills and cultural understanding.  Both syntax and lexical skills are studied in parallel with the culture.

Students benefit from teaching methods and content adapted to the individual’s level and needs. Skills are developed beginning from the student's language level on arrival.

1.    Language of communication, both oral and written.

• Speaking skills: the student will interact with native speakers, including listening, taking part in conversations, and giving his or her opinion,
• Writing skills: the student will communicate in formal and informal situations. For example: compose or reply to an email, an administrative letter, etc...

2.     Academic methodology in French.

• The student will learn speaking skills such as giving a presentation, making a convincing argument, debating, and through interactions in French with other students and the instructors,
• The student will learn writing skills by using various formats such as a formal email, an introductory application letter, an argumentative essay, a dissertation, a synthesis or a summary.

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Natural polymers are playing a key role in the frame for bioeconomy. They could replace fossil-based polymers and make a positive contribution to the mitigation of climate change and the sustainable use of natural resources. This will require a better understanding of how the structure and functionality of the materials interrelate.

In this context, this course relates with key topics on :

1) The biomass valorization and natural polymers, including their origin, extraction/isolation, characterization, and physiochemical, structural, mechanical and their biological properties, 

2) The development of novel multifunctional bio-based materials architectures and manufacturing processes is also assessed, as well as, their applications in key areas such as biomedicine, composites, agriculture, and environmental engineering are also discussed.

Students acquire the competence to think of biomass valorization and biopolymers as a sustainable alternative to fossil-based polymers for the development of polymeric materials and composites.

Basic knowledge in polymer chemistry is beneficial but not necessary. The course contents will include a series of lectures using Power Point slides, case studies, exercises and in-class oral presentations by the students.

Students should keep up with assigned reading and ask questions in class or by email.

Visit the full page about this course

L’objectif de cette UE est d’une part la maîtrise des bases élémentaires de la thermodynamique des surfaces et d’autre part la bonne connaissance des différentes familles d’adhésifs. Nous abordons la thermodynamique des surfaces par les notions de mouillage et d’énergie de surface. Une description des adhésifs à mise en œuvre chimique ou physique et des auto-adhésifs est proposée avec des exemples d’applications dédiées. La formulation des adhésifs est exposée par la description des composants d’un auto-adhésif, leur mise en œuvre pour des applications prises comme exemples modèles, les règles scientifiques et empiriques de formulations (gestion de la viscosité, de l’élasticité, de la cristallinité, de la transition vitreuse, …), la mesure/prédiction des propriétés d’adhérence et enfin les règles générales qui dominent aux choix des adhésifs. La mesure des propriétés d’adhésion sera exposée par les différentes techniques existantes.

The objective of this course is on the one hand to master the elementary basics of surface thermodynamics and on the other hand to have a good knowledge of the different families of adhesives. We approach the thermodynamics of surfaces through the notions of wetting and surface energy. A description of chemical or physical adhesives as well as pressure sensitive adhesives is proposed with examples of dedicated applications. The formulation of adhesives is presented by describing the components of a pressure sensitive adhesive, their implementation for applications taken as model examples, the scientific and empirical rules of formulation (management of viscosity, elasticity, crystallinity, glass transition, ...), the measurement/prediction of adhesion properties and finally the general rules that dominate the choice of adhesives. The measurement of adhesion properties will be presented by the different existing techniques.

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

The main objective of this lecture is to train students to make the link between the knowledge, as they learned during the first year of the master, on synthetic polymer and materials thereof and biomacromolecules.

The format is hybrid, between lectures and student-based learning through literature studies and oral presentations in groups.

The main topics are dedicated to the relation between structure and function and to the self-assembly of polymers and biomacromolecules in dilute aqueous solutions.

Visit the full page about this course

Introduction into imaging techniques with a focus of those techniques and expertise, which are available at UPPA, presented by six experts working in UPPA labs. Applications from recent research projects will be discussed.

The following topics are covered :

• Light and electron microscopy, 
  
• Secondary ion mass spectrometry: ToF-SIMS and NanoSIMS, 
  
• X-ray techniques: X-ray tomography and Synchrotron radiation X-ray techniques, 
  
• Neutron tomography, 
  
• Laser Ablation with Inductively Coupled Plasma Mass Spectrometry (LA ICPMS), 
  
• Principles and different modes of the techniques, 
  
• Challenges for sample preparation, 
  
• Data acquisition and data treatment, 
• Visiting of the different imaging techniques and laboratories at UPPA.

Visit the full page about this course

Visit the full page about this course

A part of the course presents the specificity of amphiphilic copolymers and their specific self-assembly behavior in water. The properties of these amphiphilic copolymers in water are presented in relation to the diversity of industrial applications offered by these materials.

After an introduction to the different classes of amphiphilic copolymers (topologies, microstructure, natural or synthetic polymers, stimulables), the challenges associated with their characterization and processing will be discussed in relationship with the targeted properties related to applications.

› Course structure : 

The lecture will be divided as follows : 

Industrial applications of amphiphilic copolymers

• Definition and library of structures of amphiphilic copolymers based on natural or synthetic copolymers, 
• Tools to tune the amphiphilic behavior, 
• Challenges of production and characterization of amphiphilic copolymers, 
• Roles and specifications of amphiphilic copolymers for diverses applications: rheology modifiers, thickeners, hydrogels, emulsifier, dispersant, colloidal particules.The properties will be discussed in relation to various industrial sectors: building, paints, cosmetics, biomedical, filtration membranes, agri-food…

Visit the full page about this course

Visit the full page about this course

The objective of this course is to establish a state of the art of polymer-based nanocomposites.

After defining nanocomposites, we review the main processing methods for these materials, focusing on the specific issues and challenges they raise.

We then study the specific properties of nanocomposites, with a particular focus on their relationship with the nanoscale of the fillers. We end up with studying several applications.

The teaching strategies of this course include traditional course and several case studies.

Visit the full page about this course

Visit the full page about this course

The objective is to introduce to students organic and hybrid (organic-inorganic) materials presenting a nanometer-scale structure such as nanocomposites & block copolymers.

We will see that nano-structuration can induce or accentuate properties compared to usual materials.

› Course structure : 

During the lectures a presentation will be given on :

1. Introduction to the nanoWORLD !, 

2. Observe, manipulate and characterize at the nanoscale, 

3. Organic nanomaterials and their applications :  Nanocomposites & Block copolymers for nanolithography, ion diffusion in battery & fuel cell, etc. (Based on published papers). 

The course will be supplemented by seminar (TD) sessions during which specific scientific papers will be discussed.

Finally, at the end of the semester, the students will have to prepare and present a presentation on a chosen topic based on nanomaterials.

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course

Visit the full page about this course