Analyse thermique avancée et propriétés de transport de matériaux polylactide stéréocomplexe / Advanced thermal analysis and transport properties of stereocomplex polylactide

Varol, Nagihan

26 June 2019

L’originalité de ce travail repose sur une approche physique et physico-chimique des propriétés de mélanges de polylactides de chiralité différentes (poly L-lactique acide et poly D-lactique acide) et sur l’influence de cette chiralité sur les propriétés des phases amorphes de ces matériaux. Les matériaux sont des mélanges élaborés à partir de deux homopolymères (PLLA et PDLA) selon deux méthodes ; coulée en solution ou par extrusion. Nous avons étudié des matériaux totalement amorphes et cristallisés de façon isotrope afin de générer une phase amorphe plus ou moins confinée. Il est montré que le mélange pouvant donner naissance à une phase cristalline stéréocomplexe ne peut être obtenu que dans certaines conditions. Les résultats des analyses thermiques et de perméation ont montré que le mélange PLLA/PDLA améliore certaines propriétés du matériau, notamment des propriétés barrières à l’eau et aux gaz plus élevées par rapport aux homopolymères parents. Afin d’étudier la mobilité moléculaire des phases amorphes, du vieillissement physique et de la relaxation structural (relaxation α et β), le concept de Région de Réarrangement Coopératif (CRR) a été appliqué. Il a été montré que les phases amorphes des homopolymères et du mélange ont exactement les mêmes propriétés à la transition vitreuse et dans l’état vitreux lorsque les matériaux sont totalement amorphes. / The originality of this work is based on analysis of physical and physicochemical properties of polylactide mixtures of different chirality (poly L-lactic acid and poly D-lactic acid) and on the influence of the chirality on the amorphous phase’s properties. The materials mixtures are elaborated from two homopolymers (PLLA and PDLA) according to two methods; solution casting or extrusion. Totally amorphous and isotropically crystallized materials with more or less confined amorphous phase were studied. It is shown that a stereocomplex crystalline phase can be obtained only under certain experimental conditions. The results of the thermal and permeation analyzes showed that the PLLA / PDLA mixture improved certain properties of the material, namely higher barrier properties towards liquid water and gases were obtained compared to parent homopolymers. In order to study the molecular mobility of amorphous phases, physical aging and structural relaxation (α and β relaxation), the Cooperative Rearrangement Region (CRR) concept has been applied. It has been shown that the amorphous phases of the homopolymers and the mixture have exactly the same properties at the glass transition and in the vitreous state when the materials are totally amorphous.

Stéréocomplexation

PLA stéréocomplexe

Propriétés de transport

Analyse thermique

Dynamique moléculaire

Relaxation structurale

Vieillissement physique

Calorimétrie à Balayage Rapide

Perméation

Stereocomplexation

Stereocomplex PLA

Transport properties

Thermal analysis

Molecular dynamics

Structural relaxation

Physical aging

Dielectric relaxation spectroscopy (DRS)

Fast Scanning Calorimetry

Permeation

CUDA-based Scientific Computing / Tools and Selected Applications

Kramer, Stephan Christoph

22 November 2012

No description available.

510

CUDA

C++

Expression Templates

Preconditioning

Sparse Matrix

Indoor Airflow

Quantum Hall Effect

Magnetic Focussing

Hardy Space Infinite Elements

Phase Retrieval

Optogenetics

Object-oriented Design

FFT

Dielectric Relaxation Spectroscopy

Poisson-Nernst-Planck Equations

BEM

FEM-BEM Coupling

Curvilinear Boundaries

Boundary Integral Equation

Transparent Boundary Conditions

Schrödinger Equation

Krylov Methods

Parallel Computing

GPU Computing

Sparse Approximate Inverse

Faber Polynomials

Polynomial Preconditioner

Conformational Sampling of Proteins

Protein Folding

Higher Order Finite Elements

Mathematics (PPN61756535X)

Dielektrické vlastnosti rostlinných olejů pro elektrotechniku / Dielectric Properties of Vegetable Oils for Electrical Engineering

Spohner, Milan

January 2021

The dissertation thesis deals with the analysis of prospective environmentally compatible electrical insulating fluids for electrical engineering in relation to their chemical structure. The thesis starts with the overview of the current state of the art and of the latest trends in the use of synthetic and biodegradable natural oils. In the experimental part were studied these oils: mineral oils, rapeseed oil, sunflower oils, soybean oil, methyl oleate, peanut oil, MCT oil, castor oil and other. Dielectric properties were measured using LRC meter Agilent 4980A including dielectric liquid test fixture Agilent 16452A and also by the Novocontrol Alpha-A analyzer. Electrical properties are presented in the frequency range 10 mHz – 1 MHz range in the temperature interval 253 K to 363 K. The work goes on with the study of the suitability of individual oils for lower temperature, including the impact of the chemical structure and formulation on electrical properties.