Micromechanical models of the elasticity and fracture of fibre networks /

Åström, Jan.

January 1996

Thesis--Physics--Turku--Åbo akademi, 2006. / Notes bibliogr. Annexes, 40 p.

Fibres Fibres Fibres

The mechanical behaviour of irregular fibre materials

He, Wendy Weiyu, wendy.he@deakin.edu.au

January 2002

This work investigates the effect of fibre irregularities on the mechanical behaviour of the irregular fibres using the finite element method (FEM). The first part of this work examines that the effect of fibre dimensional irregularities on the linear and non-linear tensile behaviour of the fibres, using a two-dimensional (2D) finite element models. In the linear simulation, a concept of method Young’s modulus is introduced. The method Young’s modulus, breaking load and breaking extension are affected by the magnitude and frequency of diameter variation in the fibre specimen. Fibre dimensional variation and the gauge length effect are also simulated. In the non-linear analysis, some additional information is obtained on changes in the yield and post-yield regions, which are clearly shown in the load-extension curves. Further investigation is focused on the flexural buckling behaviour of fibres with dimensional irregularities. A three-dimensional (3D) finite element model is used to simulate the buckling deformation of dimensionally irregular fibres, and the critical buckling load of the simulated fibre is calculated. Two parameters, the effective length and the average diameter within the effective length of an irregular fibre, are considered to be the key factors that influence the buckling behaviour of the fibre. An important aspect of this work is the calculation of the effective length of an irregular fibre specimen during buckling. This method has not been reported before. The third part of this work is on the combined tensile and torsional behaviour of fibres with dimensional irregularities, using a three-dimensional (3D) finite element model. Two types of fibres, polyester and wool, are simulated with sine waves of different level (magnitude) and frequency at different twist levels. For the polyester fibre, experiment verification of the simulation results has been carried out, and the results indicate the FE model is well acceptable for the simulation. The final part of this work examines the combined effect of dimensional and structural irregularities on the fibre tensile behaviour. Three-dimensional (3D) finite element models are used to simulate the cracks (transverse, longitudinal, combined transverse and longitudinal cracks) and cavities distributed in uniform fibres and fibres with 30% level of diameter variation, respectively. One of important conclusions is that under the simulated conditions, the dimensional irregularity of fibre influences the tensile behaviour of fibres more than the fibre structural irregularity. The fibre dimensional irregularity affects not only the values of the breaking load and breaking extension, but also the shape of load-extension curves. However, the fibre structural irregularity simulated in the study appears to have little effect on the shape of the load-extension curves. In addition, the effect of crack or cavity size, type and distribution on fibre tensile properties is also investigated.

textiles

textile fibres

testing fibres

irregular fibres

Etude de la protéolyse calcium dépendante et du protéasome dans le muscle de poulet : rôle dans la maturation de la viande

Lee, Hsiao-lin. Briand, Yves.

January 2009

Reproduction de : Thèse de doctorat : Biochimie : Clermont-Ferrand 2 : 2005. / Titre provenant de l'écran-titre. Bibliogr. p. 122-143.

Fibres musculaires

X-ray and optical studies of z-pinch plasmas

Beg, Farhat Nadeem

January 1995

No description available.

530.44

Carbon fibres; Aluminium fibres

Investigations of the physical and chemical structure of archaeological fibres

Jabur, Alaa Wazir

January 2014

Investigations of the physical and chemical structure of archaeological fibresArchaeological fibres can be defined as natural fibres that belong to different time periods, which found in cemeteries or excavation sites. The preservation conditions cause degradation, mineralisation and sometimes a complete deterioration of these fibres, because the chemical and physical structure of the fibres changed over time in response to the specific burial environments. The ancient fibres from different archaeological sites were analysed by several non destructive analytical techniques such as optical Microscopy, Environmental Scanning Electron Microscopy, Attenuated Total Reflectance FTIR and Wide Angle X-Ray Scattering Analysis as well as destructive analytical techniques such as Scanning Electron Microscopy, Transmission Fourier Transform Infrared Spectroscopy, Energy Dispersive X-Ray Spectroscopy and Differential Scanning Calorimetry. These analytical techniques showed that keratin fibres from a central European climate have a larger damage at the fibre surface compared with frozen conditions. While bog conditions were the best in preserving the surface. FTIR analysis provides information about cystine oxidation changes in keratin fibres. For all ancient keratin fibres showed a silica peak at 1030 cm-1 which affected the symmetric cysteic acid peak at 1040 cm-1. For this reason the asymmetrical cysteic acid peak 1175 cm-1 was used for identification of cystine oxidation changes. Transmission FTIR gives a better view of the overall chemical changes in both cortex and cuticle compared to ATR analysis. All ancient wools and highly medullated Iceman deer hairs showed the highest concentration of cysteic acid compared with human hair and goat hair. Also it was shown that warm conditions have bigger effect on both the degree of oxidation of cystine and the ions uptake from the environment. The modulated DSC analysis gives a better view on the degree of degradation of hair proteins compared to WAXS analysis. To get a reliable result it is important to correct the DSC data according to the protein content of the fibre.

620.1

keratin fibres, Archaeological fibres

MATERIAUX COMPOSITES A FIBRES COURTES. RELATION ENTRE FACTEUR D'ORIENTATION ET PROPRIETES MECANIQUES ET THERMIQUES /

BOUR, YVES. ROYER, FRANCOIS XAVIER..

January 1999

Thèse de doctorat : SCIENCES APPLIQUEES : Metz : 1999. / 1999METZ006S. 146 REF.

Modeling of the hygromechanical warping of medium density fiberboard /

Ganev, Stefan.

January 2002

Thèse (Ph.D.)--Université Laval, 2002. / Bibliogr.: f. [138]-146. Publié aussi en version électronique.

Word fibres in finite p-groups and pro-p groups

Iniguez-Goizueta, Ainhoa

January 2016

No description available.

Design and characterization of few-mode fibers for space division multiplexing on fiber eigenmodes

Corsi, Alessandro

11 February 2021

La croissance constante et exponentielle de la demande de trafic de données Internet conduit nos réseaux de télécommunications optiques, principalement composés de liaisons de fibre monomode, à une pénurie imminente de capacité. La limite non linéaire de la fibre monomode, prédite par la théorie de l'information, ne laisse aucune place à l'amélioration de la capacité de communication par fibre optique. Dans ce contexte, la prochaine technologie de rupture dans les transmissions optiques à haute capacité devrait être le multiplexage par répartition spatiale (SDM). La base du SDM consiste à utiliser différents canaux spatiaux d'une seule fibre optique pour transmettre des données indépendantes. Le SDM fournit ainsi une augmentation de la capacité de transport de données d'un facteur qui dépend du nombre de chemins spatiaux qui sont établis. Une façon de réaliser le SDM consiste à utiliser des fibres faiblement multimodes (FMF) spécialisées, conçues pour présenter un couplage faible entre les modes guidés. Un traitement MIMO réduit peut alors être utilisé pour annuler le couplage résiduel des modes. Dans cette thèse, nous donnons tout d'abord un aperçu des progrès récents du multiplexage par répartition de modes (MDM). Les modes à polarisation linéaire (LP), les modes de moment angulaire orbital (OAM) et les modes vectoriels représentent différentes bases de modes orthogonaux possibles dans la fibre. Nous comparons les travaux utilisant ces modes en termes de conception de fibre proposée, nombre de modes, complexité MIMO et résultats expérimentaux de transmission de données. Ensuite, nous introduisons la modélisation de la fibre optique réalisée avec les solveurs numériques de COMSOL Multiphysics, et nous discutons de quelques travaux utilisant cette modélisation de fibre. Nous proposons une nouvelle FMF, composée d'un noyau hautement elliptique et d'une tranchée adjacente ajoutée pour réduire la perte de courbure des modes d'ordre supérieur. La fibre est conçue et optimisée pour prendre en charge cinq modes spatiaux avec une dégénérescence de polarisation double, pour un total de dix canaux. La fibre proposée montre une différence d'indice effectif entre les modes spatiaux supérieure à 1 × 10-3sur la bande C. Ensuite, nous fabriquons la fibre avec un procédé standard de dépôt chimique en phase vapeur modifié (MCVD), et nous caractérisons la fibre en laboratoire. La caractérisation expérimentale a révélé que la fibre présente une propriété de maintien de polarisation. Ceci est obtenu grâce à la combinaison de la structure centrale asymétrique et de la contrainte thermique introduite lors de la fabrication. Nous mesurons la biréfringence avec une technique de réseau de Bragg inscrit dans la fibre (FBG). En incluant la contrainte thermique dans notre modélisation de fibre, un bon accord est obtenu entre la biréfringence simulée et mesurée. Nous avons réussi à effectuer la première transmission de données sur la fibre proposée, en transmettant deux signaux QPSK sur les deux polarisations de chaque mode spatial, sans utiliser de traitement MIMO. Enfin, nous présentons une amélioration d'une technique d'interférométrie hyperfréquence (MICT) précédemment proposée, afin de mesurer expérimentalement la perte en fonction du mode (MDL) des groupes de modes FMF. En conclusion, nous résumons les résultats et présentons les perspectives d'avenir de cette recherche. En résumé, de nouveaux FMF doivent être étudiés si nous voulons résoudre la pénurie imminente de capacité de nos technologies système. Les résultats de cette thèse indique que le FMF à maintien de polarisation proposée dans cette recherche représente une amélioration significative dans le domaine des systèmes de transmission MDM sans MIMO pour des liaisons de communication courtes ; c’est-à-dire distribuant des données sur une longueur inférieure à 10 km. Nous espérons que ce travail conduira au développement de nouveaux composants SD Mutilisant cette fibre, tels que de nouveaux amplificateurs à fibre, ou de nouveaux multiplexeurs/démultiplexeurs, comme par exemple des coupleurs en mode fibre fusionnée ou des dispositifs photoniques au silicium. / The constant and exponential growth of Internet data traffic demand is driving our optical telecommunication networks, mainly composed of single-mode fiber links, to an imminent capacity shortage. The nonlinear limit of the single-mode fiber, predicted by the information theory, leave no room for optical fiber communication capacity improvements. In this direction, the next disruptive technology in high-capacity communication transmissions is expected to be Space Division Multiplexing (SDM). The basic of SDM consists of using different spatial channels of a single optical fiber to transmit information data. SDM thus provides an increase in the data-carrying capacity by a factor that depends on the number of spatial paths that are established. A way to realize SDM is through the use of specialty few-mode fibers (FMFs), designed to have a weak coupling between the guided modes. A reduced MIMO processing can be used to undo the residual mode coupling. In this thesis, we firstly give an overview of the recent progress in mode division multiplexing (MDM). Linearly polarized (LP) modes, orbital angular momentum (OAM) modes and vector modes represent the possible orthogonal modes guided into the fiber. We compare works, making use of those modes, in terms of proposed fiber design, number of modes, MIMO complexity and data transmission experiments. After that, we introduce the optical fiber modelling performed with the numerical solvers of COMSOL Multiphysics, and we discuss some works making use of this fiber modelling. Next, we propose a novel FMF, composed of a highly elliptical core and a surrounding trench added to reduce the bending loss of the higher order modes. The fiber is designed and optimized to support five spatial modes with twofold polarization degeneracy, for a total of ten channels. The proposed fiber shows an effective index difference between the spatial modes higher than 1×10-3 over the C-band. Afterwards, we fabricate the fiber with standard modified chemical vapor deposition (MCVD) process, and we characterize the fiber in the laboratory. The experimental characterization revealed the polarization maintaining properties of the fiber. This is obtained with the combination of the asymmetric core structure and the thermal stress introduced during the fabrication. We measure the birefringence with a fiber Bragg grating (FBG) technique, and we included the thermal stress in our fiber modelling. A good agreement was found between the simulated and measured birefringence. We successfully demonstrate the first data transmission over the proposed fiber, by transmitting two QPSK signals over the two polarizations of each spatial mode, without the use of any MIMO processing. Lastly, we present an improvement of a previously proposed microwave interferometric technique (MICT), in order to experimentally measure the mode dependent loss (MDL) of FMF mode groups. Finally, we present the conclusions and the future perspectives of this research. To conclude, novel FMFs need to be investigated if we want to solve the imminent capacity shortage of our system technologies. We truly believe that the polarization-maintaining FMF proposed in this research represents a significant improvement to the field of MIMO-free MDM transmission systems for short communication links, distributing data over length less than 10 km. We hope that this work will drive the development of new SDM components making use of this fiber, such as new fiber amplifiers, or new mux/demux, as for example fused fiber mode couplers or silicon photonic devices.

Multiplexage.

Fibres optiques.

A dynamic analysis for the false twist texturing process

Featherstone, A. M.

January 1982

No description available.

677

Fibres & textiles