Nonlinear mechanics of composite materials

Alur, Kashyap

08 June 2015

Composite materials have been an area of active research in recent years due to the possibility of obtaining multifunctional structures. Viscoelastic layered composites with parallel plane layers consisting of a stiff constituent and a soft viscoelastic constituent are of particular interest as they have been shown to exhibit simultaneous high stiffness and high damping. Such materials would be useful in structural applications and in high vibration environments such as in a vehicle or machinery. They would provide the rigidity required while simultaneously dissipating mechanical energy. The finite deformation mechanics of parallel plane viscoelastic layered composites has not been extensively studied. Under compressive loads they are very susceptible to instabilities. Buckling, for example is an elastic instability seen in load bearing materials. Since viscoelastic materials are rate and time dependent, the buckling modes for these composites not only depend on these factors, but also on the volume fraction of the stiff constituent. Three different cases are identified in the buckling and post-buckling response of these composites: non-dilute (high volume fraction), transition (intermediate volume fraction) and dilute (small volume fraction) cases. Due to buckling from the application of prestrain, the stiffness and damping of these composites can be tuned by orders of magnitude. Adaptive and multifunctional materials can be designed taking advantage of this idea and the rate dependence of the modes of deformation.

Viscoelasticity

Layered composites

Buckling

Study of substituted benzenesulfonate-containing layered double hydroxides and investigation of the hexamethylenetetramine route of LDH synthesis

Ambadapadi, Sriram. Braterman, Paul S.,

January 2007

Thesis (M.S.)--University of North Texas, May, 2007. / Title from title page display. Includes bibliographical references.

Layered double hydroxides. Benzene.

Graphene, layered materials and hybrid structures for advanced photodetectors

De Fazio, Domenico

January 2018

Photodetectors are essential in optoelectronics as they allow the conversion of optical signals into electrical outputs. Silicon, germanium and III-V semiconductors currently dominate the photodetector market. In this dissertation I exploit the potential of layered materials to demonstrate a class of photodetectors able to challenge existing technological issues. I first demonstrate a fabrication method for high-mobility, chemical-vapour-deposited graphene devices which could help to increase the responsivity in graphene-based photodetectors. I then show three examples of graphene-based Schottky photodetectors working at the telecommunication wavelength $\lambda$=1550nm, two for free-space illumination and one for on-chip applications. These are able to achieve responsivities up to 1A/W with relatively-low operation voltage (-3V), similar to those achieved with germanium. I then target the mid-infrared range ($\lambda\sim$10$\mu$m), where emission from objects at room temperature has a peak. I show graphene-based pyroelectric bolometers with temperature coefficient of resistance up to 900\%/K, two orders of magnitude higher compared to current solutions based on thin oxide membranes. I present flexible photodetectors working in the visible range ($\lambda$=642nm) with gate-tunable graphene/MoS$_2$ heterostructures and show responsivity up to 45A/W, 82\% transparency, and low voltage operation (-1V). The responsivity is two orders of magnitude higher compared to semiconducting flexible membranes. Graphene/MoS$_2$ photodetectors can be bent without loss in performance down to a bending radius of 1.4cm. I finally report on the investigation of superconducting properties of layered materials with the target of realizing ultra-sensitive superconducting photodetectors. Unconventional superconductivity is induced in graphene by proximity with a cuprate superconductor. I used gating to turn semiconducting, few-layer MoS$_2$ into a superconductor, which allowed us to unveil the presence of a multi-valley transport in the superconducting state. Electrical properties of the layered superconductor NbSe$_2$ are then studied. I then used NbSe$_2$ ultrathin flakes to realize superconducting photodetectors at $\lambda$=1550nm, reaching a sensitivity down to few thousand photons.

Layered Double Hydroxides as Anion- and Cation-Exchanging Materials

Richardson, Mickey Charles

05 1900

Layered double hydroxides (LDH) have been principally known as anion-exchanging, clay-like materials for several decades, and continues to be the main driving force for current and future research. The chemical interactions of LDH, with transition metallocyanides, have been a popular topic of investigation for many years, partly due to the use of powder x-ray diffraction and infrared spectroscopy as the main characterization tools. Each transition metallocyanide has a characteristic infrared stretching frequency that can be easily observed, and their respective sizes can be observed while intercalated within the interlayer of the LDH. The ability of LDH to incorporate metal cations or any ions/molecules/complexes, that have a postive charge, have not been previously investigated, mainly due to the chemical and physical nature of LDH. The possibility of cationic incorporation with LDH would most likely occur by surface adsorption, lattice metal replacement, or by intercalation into the LDH interlayers. Although infrared spectroscopy finds it main use through the identification of the anions incorporated with LDH, it can also be used to study and identify the various active and inactive bending and stretching modes that the metal hydroxide layers have.

Layered

double

hydroxides

Layered double hydroxides.

Anions.

Cations.

Complex metal oxide materials : synthesis, structural characterisation and development of combined EXAFS and powder differaction analysis

Pack, Maria Joyce

January 1998

No description available.

546

Rapid prototyping by laser surface cladding

Murphy, M. L.

January 1995

In recent years rapid prototyping technology has been implemented in many spheres of industry, particularly the field of product development. Existing process provide the capability to rapidly produce a tangible solid part, directly from three dimensional CAD data, from a range of nonmetallic materials. In many situations the desired end product of a development cycle is a metallic object, whether a component or a tool. The development of a system capable of the direct manufacture of fully dense, metal parts is therefore seen as an important landmark in the evolution of rapid prototyping technology. A unique experimental project has been carried out to investigate the potential of laser surface cladding by pneumatic powder delivery to form the basis for such a process. A layered manufacturing part building strategy is proposed, in which laser cladding is used to deposit the near net shape of each layer. Conventional machining techniques are then used to trim each layer to the exact dimensions specified by the CAD data. A multi-kilowatt carbon dioxide laser was integrated with a four axis machine tool to create an opto-mechanical workstation on which to perform the process. A detailed study of the effects of cladding process parameters on the geometry of the deposited metal was carried out and quantitative relationships derived. These relationships are used to select process parameters appropriate to the geometry of the deposition required. A numerical method to fully describe the deposited clad geometry was developed in order that efficient cutter paths could be generated for the back machining cycle. These relationships are also used to determine the minimum size of deposited bead from which the required layer section may be machined, in order to optimise process efficiency. The application of the technique to the generation of a variety of simple geometries was investigated and the potential problems identified. A preliminary investigation into the process accuracy is made, relating specifically to the predictability of the geometry of multiple layer depositions and the distortion of parts as subsequent layers are deposited. The limits of geometrical complexity possible with the current apparatus, and the unsatisfactory build times involved, suggest that the most attractive application of this technique is as part of a hybrid process, adding a novel additive dimension to existing automated fabrication techniques.

620.0042029

Layered double hydroxides as anion- and cation-exchanging materials

Richardson, Mickey Charles. Braterman, Paul S.,

January 2007

Thesis (Ph. D.)--University of North Texas, May, 2007. / Title from title page display. Includes bibliographical references.

In/coherence : a layered account of a Kuwaiti woman's post-psychotic self-in-progress

Almajed, Fejer

January 2017

This is a thesis on madness and moments and what happens in between. I invite the reader into the world of a post-psychotic woman living within and without a Kuwaiti culture. As a fragmented and traumatised researcher I use my chaotic and dismembered writing as a narrative quilt creating a layered account of conversations and stories, in other words, “moments of meeting”. Moments that make us, define us and continue to create knowledge. In those moments, I dialogue with myself, with other people representing different cultures as well as the different “messy” theorists I draw on in my work. The messy theorists include writers such as Alec Grant, Sophie Tamas, Helene Cixous and Susanne Gannon. Through the creative freedom afforded me by their theories I begin to explore my chaotic psychic landscape. Those explorations are, what I call in this thesis, process inputs as they are also reflections of my personal process in writing this autoethnography. They exist alongside the moments of meeting to create snapshots of my experiences from different perspectives at different times. In this work, as a bipolar Kuwaiti woman, I have a dual purpose, where I give voice to my lived experience of a severe mental illness highlighting my struggle with narrative coherence as well as to provide a Kuwaiti I-account detailing my experience of being “othered” as a result of my “mad episodes”. I hope to, in the process, provide people with severe mental illnesses, Kuwaiti women and members of marginilised communities who have been forced out of the cultural scripts or master narratives of their country with constitutive narrative resources and alternative story lines that they can draw on in their journey towards “a more functional state” in the case of severe mental illness and the creation of a dialogue with people who are unable to, for cultural reasons communicate about their experiences.

Neural and genetic modelling, control and real-time finite simulation of flexible manipulators

Shaheed, Mohammad Hasan

January 2000

No description available.

629.8

The visible consequences of rising convective streams in the Earth

Amiri Khanmakani, Hosein

January 1993

No description available.

551.21