TWIST BEND AND DOUBLE TWIST IN LIQUID CRYSTALS

Xiang, Jie

04 August 2016

No description available.

Physics

Optics

Materials Science

Investigation of sexithiophene properties with Monte Carlo simulations of a coarse-grained model

Almutairi, Amani

January 2016

No description available.

Physics

sexithiophene

Gay-Berne potential

liquid crystal

structure

coarse-grained model

Monte Carlo simulations

Extrusion of a thermotropic liquid crystal polymer

Daga, Kamal Dhulchand

January 1987

No description available.

Engineering, Chemical

Thermotropic Liquid Crystal Polymer

Converging Die

Scanning Electron Microscopic Analysis

Detailed Experimental Measurements of Heat Transfer Augmentation in Internal Channels Using a Thermochromic Liquid Crystal Technique

Tyagi, Kartikeya

22 June 2015

Design of internal cooling channels for gas turbine blade is critical to system performance. To achieve maximum efficiency, i.e. maximum cooling with minimum coolant usage, intensive research is required to optimize heat transfer enhancement features. The present study aims at experimental and numerical investigation of two heat transfer augmentation techniques for internal cooling, viz. dimple and swirl induced jet impingement. Dimples are suitable candidates for high performance enhancement as they impose a low pressure drop penalty. The present study aims at experimentally measuring heat transfer on all the walls of diamond, triangular, square and cylindrical shaped dimples in a staggered configuration at three flow conditions in a high aspect ratio channel. A thermal-hydraulic performance factor was evaluated to characterize each dimple shape. Numerical simulations were conducted to visualize flow patterns which was correlated with heat transfer distribution. The results were in good agreement with previous studies. Triangular dimples showed the highest overall performance due to lowest pressure drop penalty, but heat transfer was low inside the dimples. In rotating channels, Coriolis Effect and centrifugal buoyancy significantly affect heat transfer distribution. There is a need to develop a cooling geometry that benefits from rotation and provides consistent cooling. A new geometry was derived from a past study, consisting of two channels divided by a wall with angled holes to provide jet impingement from inlet to outlet channel. Liquid crystal technique was used for heat transfer measurements. It was found that at high rotational speeds, heat transfer increased in the inlet channel, while it decreased in the outlet channel. Additional testing at even higher speeds may provide insight into replacing a traditional U-bend channel in a turbine blade. / Master of Science

Heat--Transmission

Gas Turbine Cooling

Internal Channel Cooling

Thermochromic Liquid Crystal Technique

[en] EMULSIONS STABILIZED BY LIQUID CRYSTALS / [pt] EMULSÕES ESTABILIZADAS POR CRISTAIS LÍQUIDOS

PAOLA SEVERO DUARTE

19 January 2021

[pt] O presente trabalho tem como principal objetivo compreender o mecanismo de estabilização de emulsões por cristais líquidos de estrutura lamelar. Emulsões são dispersões coloidais formadas por dois líquidos imiscíveis, como água e óleo. Para garantir a estabilidade das emulsões, é preciso adicionar emulsificantes, como surfactantes, por exemplo. Em alguns tipos de cosméticos é muito comum o uso de cristais líquidos, formados pela adição de álcoois graxos que atuam como co-surfactantes, levando à redução da curvatura das micelas e, consequentemente, à transição para uma fase de estrutura lamelar. Neste trabalho, para o preparo das amostras, foram empregadas substâncias comumente utilizadas como ingredientes de emulsões cosméticas estabilizadas por cristais líquidos: cloreto de cetrimônio, álcool cetílico, água e óleo mineral. Em seguida, diversas técnicas foram utilizadas para: caracterizar a estrutura em escala nanométrica por Espalhamento de Raios X a Baixos Ângulos, SAXS, analisar a viscosidade por curvas de fluxo e a viscoelasticidade por ensaios oscilatórios através da Reologia, determinar a distribuição de tamanho das gotas e acompanhar a estabilidade das emulsões, por Microscopia Óptica e Difração de Laser. Dessa forma, foi realizada uma análise sistemática, variando diversos parâmetros, como concentração dos componentes, método de preparo e energia de homogeneização, possibilitando determinar como estes parâmetros levam a diferentes mecanismos de estabilização de emulsões por cristais líquidos lamelares. Além de afetar o tamanho das gotas, a energia aplicada para homogeneização também determina o comportamento dos cristais líquidos lamelares no sistema. Dentre os diferentes comportamentos observados, vale ressaltar a formação de um recobrimento lamelar ao redor das gotas ou de uma rede lamelar espalhada pelo meio contínuo. A correlação desses fenômenos com propriedades macroscópicas, como reologia e estabilidade, permitirá um maior controle das propriedades finais em emulsões cosméticas e até mesmo em outras aplicações. / [en] The main goal of the present study is to understand the mechanism of stabilization of emulsions by lamellar liquid crystals. Emulsions are colloidal dispersions formed by two immiscible liquids, such as water and oil. To guarantee the stability of the emulsions, it is necessary to add emulsifiers, such as surfactants, for example. In some types of cosmetics, it is very common to use liquid crystals, formed by the addition of fatty alcohols that act as co-surfactants, leading to the reduction of the curvature of the micelles and, consequently, to the transition to a phase of lamellar structure. In this work, for the preparation of the samples, substances often used as ingredients of cosmetic emulsions stabilized by liquid crystals were used: cetrimonium chloride, cetyl alcohol, water and mineral oil. Then, several techniques were used to: structural characterization at nanoscale by Small Angle X-Ray Scattering, SAXS, analysis of viscosity by flow curves and viscoelasticity by oscillatory tests using Rheology, determination of drops size distribution and monitoring emulsion stability by Optical Microscopy and Laser Diffraction. Thus, a systematic analysis was performed, varying several parameters, such as the concentration of components, preparation method and homogenization energy, allowing to determine how these parameters lead to different mechanisms of stabilization of emulsions by lamellar liquid crystals. In addition to affecting the droplet size, the energy applied for homogenization also determines the behavior of lamellar liquid crystals in the system. Among the different behaviors, it is worth mentioning the formation of a lamellar coating around the drops or a lamellar network spread over the continuous medium. The correlation of these phenomena with macroscopic properties, such as rheology and stability, will allow tuning the final properties in cosmetic emulsions, and even in other applications.

[pt] ESTABILIDADE

[pt] SURFACTANTES

[pt] CRISTAL LIQUIDO

[pt] EMULSAO

[en] STABILITY

[en] SURFACTANTS

[en] LIQUID CRYSTAL

[en] EMULSION

Visual Experience Enhancement in Augmented Reality Displays

Yang, Qian

01 January 2024

In the dynamic arena of display technology, augmented reality (AR) displays represent a pivotal advancement, seamlessly bridging the digital and physical worlds. This dissertation delves into the realm of AR display technologies, spotlighting the challenges and limitations of current systems, including transparent and near-eye displays, and proposes innovative solutions to enhance user experience and display performance. With a focus on overcoming issues such as diffraction-induced image blur, the trade-off between resolution and field of view (FoV) in near-eye displays, and FoV constraints in waveguide-based displays, this research introduces new evaluation methods, optimization techniques, and system designs. First, the dissertation presents a quantitative evaluation of diffraction effects on background objects, leading to the development of a pixel structure optimization method aimed at reducing diffraction in transparent displays with small aperture ratios. This advancement promises to enhance image clarity and visibility, addressing one of the key challenges in the deployment of AR technology for transparent displays. Next, we introduce a novel Maxwellian-type foveated AR system that leverages a single light engine. This system employs a temporal polarization-multiplexing method to encode both high-resolution foveal and low-resolution peripheral images through the same light engine. With the aid of polarization-selective lenses, this system effectively separates the two views, delivering a wide FoV and high angular resolution in the foveal region, effectively minimizing the resolution-FoV compromise in near-eye displays. Furthermore, the dissertation conducts a detailed analysis of FoV limitations in single-layer waveguides, proposing a strategic combination of a gradient-pitch polarization volume grating (PVG) with a butterfly exit-pupil expansion (EPE) scheme. This approach aims to extend the FoV in single-layer waveguides towards the theoretical full-color limit. This research addresses pivotal challenges in waveguide-based AR technology, marking a significant step towards realizing more immersive and user-friendly AR systems.

Optics

Heat transfer augmentation in a rectangular duct characterized by an impinging jet inlet : design of experiment

Slabaugh, Carson D.

01 January 2009

Energy is one of the most important engineering challenges of this time. Gas turbine engines a,re responsible for nearly twenty-percent of all electricity produced in the United States today. A small increase in the operating efficiency of these engines could lead to massive reduction in the emission of greenhouse gases into the atmosphere as well as the financial burden on the average homeowner paying the monthly energy bill. In order to improve the efficiency of the engine, the Turbine Inlet Temperature of the hot gas coming from the combustor is continually increased. This requires increasingly advanced active cooling methods to maintain component life in the hot stages of the turbo machine. In this study, a complete experiment is developed for accurate testing of the complex heat transfer and aerodynamic characteristics present in the active cooling design applied to the transition duct of a land-based gas turbine. The transition duct is the component that channels the hot gases from the combustor to the first stage of the turbihe. It is in contact with the hottest mainstream gas flow in the entire machine. The unique cooling design applied to this component is a combination the three main cooling methods. It is characterized by an impinging jet inlet, which splits into two identical channels flowing in exactly opposite directions. The flow travels through these channels, cooling the hot surfaces of the duct through which they are formed. At the flow exit, it is expelled into the hot gas stream flowing from the can-annular combustor to the turbine stage. The channel exit provides a thin film of cool air coverage that protects the metal surface from the harsh temperatures of the hot gas.

Mechanical Engineering

3D fotoninio kristalo užpildyto nematiniu skystuoju kristalu spektroskopiniai tyrimai / Spectroscopic investigations of 3D photonic crystal infiltrated by nematic liquid crystal

Markevičius, Andrius

08 July 2010

Eksperimentai buvo atliekami su bandinėliais gautais iš Madrido, Maskvos ir St.Peterburgo, tai yra su fotoniniais kristalais. Darbe buvo nagrinėta fotoninio kristalo opalo struktūrą ir optines savybes draustinės stop juostos srityje bei defektų valdymo būdai, keičiant elektrinį lauką. Nagrinėjamas elektrinio lauko poveikis defektams, stop juostai. Nustatyta, kad elektriniame lauke susikuria defektai, kuriuos galima valdyti nuo 0V iki 7V įtampos intervale. Išmatuoti defektinės modos perjungimo laikai kurie sieka 200 s, tai 10 kart greičiau nei stop juostos. / We did structural and spectroscopic studies of bulk and thin film synthetic opal. Demonstrate that the photonic crystal, opal have defects, but these defects may be "good" when use it to control light in stop band.

Physics

Fotoninis kristalas

Opalas

Opalo struktūra

Opalas infiltruotas skystuoju kristalu

Photonic crystal

Opal

Opal structure

Opal infiltrated nematic liquid crystal

Etude théorique et par simulations d'une phase nématique confinée et torsadée de molécules discotiques / Theory and simulation of a confined nematic phase of discotic molecules

De Vos, Thierri

10 September 2008

Il est actuellement bien connu que les molécules non sphériques peuvent former des mésophases (ou cristaux liquides), c'est-à-dire des phases dont les propriétés sont intermédiaires entre celles des liquides et celles des cristaux. La mésophase la plus connue est la phase nématique. Il s'agit d'une phase caractérisée par une distribution aléatoire des centres de masse des molécules, mais dans laquelle l'orientation des molécules présente une direction préférentielle, désignée par un vecteur unité appelé le directeur du nématique. Une telle phase possède donc la fluidité d'un liquide tout en présentant, tel un cristal, une biréfringence. C'est cette dernière propriété qui est exploitée dans les applications technologiques, principalement dans les dispositifs d'affichage.<p>Dans un tel dispositif, le liquide nématique est contenu dans une cellule (il y a une cellule par pixel), et son directeur est manipulé à l'aide d'un champ extérieur, électrique ou magnétique. Pour une bonne compréhension du fonctionnement de ce dispositif, il est essentiel de connaître le profil du directeur à travers la cellule en l'absence de champ extérieur. Dans le cadre de ce travail, nous avons étudié un nématique torsadé, c'est-à-dire dont le directeur décrit une hélice à travers la cellule. <p>Ce profil est déterminé principalement par les propriétés d'ancrage du liquide nématique sur les parois solides de la cellule. En effet, celles-ci peuvent posséder une direction d'ancrage privilégiée, qui favorise l'alignement du directeur dans une direction particulière. Nous avons considéré ici le cas de directions d'ancrage planaires, c'est-à-dire que le directeur est dans le plan des parois. Alors que l'ajout de parois identiques dans le système induit toujours une non-uniformité spatiale dans la densité du nématique (en comparaison avec un nématique en coeur de phase), l'utilisation de directions d'ancrage différentes induit une non-uniformité orientationnelle dans le directeur du nématique; dans notre cas une torsion. C'est principalement ce profil de directeur torsadé qui nous intéresse ici. <p>L'objectif général de ce travail consiste donc à étudier les propriétés d'ancrage d'une phase nématique confinée et torsadée, d'une part par une théorie microscopique (théorie de la fonctionnelle de la densité), et d'autre part sur le plan de simulations de Monte Carlo, en particulier dans le cas où les molécules ont la forme de disques (discotiques).<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Physique

Liquid crystals

Liquid crystals -- Simulation methods

Liquid crystal displays

Cristaux liquides

Affichage à cristaux liquides

twisted

confined

mesophase

discotic

twist

nematic

liquid crystal

liquid crystals

Vertical Field Switching Blue Phase Liquid Crystals For Field Sequential Color Displays

Cheng, Hui-Chuan

01 January 2012

Low power consumption is a critical requirement for all liquid crystal display (LCD) devices. A field sequential color (FSC) LCD was proposed by using red (R), green (G) and blue (B) LEDs and removing the lossy component of color filters which only transmits ~30% of the incoming white light. Without color filters, FSC LCDs exhibit a ~3X higher optical efficiency and 3X higher resolution density as compared to the conventional color filters-based LCDs. However, color breakup (CBU) is a most disturbing defect that degrades the image quality in FSC displays. CBU can be observed in stationary or moving images. It manifests in FSC LCDs when there is a relative speed between the images and observers’ eyes, and the observer will see the color splitting patterns or rainbow effect at the boundary between two different colors. In Chapter 2, we introduce a five-primary display by adding additional yellow(Y) and cyan(C) colors. From the analysis and simulations, five primaries can provide wide color gamut and meanwhile the white brightness is increased, as compared to the three-primary. Based on the five-primary theorem, we propose a method to reduce CBU of FSC LCDs by using RGBYC LEDs instead of RGB LEDs in the second section. Without increasing the sub-frame rate as three-primary LCDs, we can reduce the CBU by utilizing proper color sequence and weighting ratios. In addition, the color gamut achieves 140% NTSC and the white brightness increases by more than 13%, as compared to the three-primary FSC LCDs. Another strategy to suppress CBU is using higher field frequency, such as 540 Hz or even up to 1000 Hz. However, this approach needs liquid crystals with a very fast response time (

Liquid crystal display

color breakup

multi primary

field sequential color

wide color gamut

blue phase liquid crystal (bplc)

vertical field switching (vfs)

hysteresis free

low voltage

wide viewing angle

Electromagnetics and Photonics

Optics