Global ETD Search

211	Development of Surrogate Spinal Cords for the Evaluation of Electrode Arrays Used in Intraspinal Implants Cheng,Cheng Unknown Date No description available. Surrogate spinal cord Spinal cord injury Mechanical testing Gelatin Silicone Elastomer Intraspinal Microstimulations
212	Digital Image Elasto-Tomography: Mechanical Property Reconstruction from Surface Measured Displacement Data Peters, Ashton January 2007 (has links) Interest in elastographic techniques for soft tissue imaging has grown as relevant research continues to indicate a correlation between tissue histology and mechanical stiffness. Digital Image Elasto-Tomography (DIET) presents a novel method for identifying cancerous lesions via a three-dimensional image of elastic properties. Stiffness reconstruction with DIET takes steady-state motion captured with a digital camera array as the input to an elastic property reconstruction algorithm, where finite element methods allow simulation of phantom motion at a range of internal stiffness distributions. The low cost and high image contrast achievable with a DIET system may be particularly suited to breast cancer screening, where traditional modalities such as mammography have issues with limited sensitivity and patient discomfort. Proof of concept studies performed on simulated data sets confirmed the potential of the DIET technique, leading to the development of an experimental apparatus for surface motion capture from a range of soft tissue approximating phantoms. Error studies performed on experimental data from these phantoms using a limited number of shape and modulus parameters indicated that accurate measurements of surface motion provide sufficient information to identify a stiffness distribution in both homogeneous and heterogeneous cases. The elastic reconstruction performed on simulated and experimental data considered both deterministic and stochastic algorithms, with a combination of the two approaches found to give the most accurate results, for a realistic increase in computational cost. The reconstruction algorithm developed has the ability to successfully resolve a hard spherical inclusion within a soft phantom, and in addition demonstrated promise in reconstructing the correct stiffness distribution when no inclusion is present. elastography finite element method breast cancer inverse problem optimization genetic algorithm silicone
213	Treatment of solid wood with silanes, polydimethylsiloxanes and silica sols Pries, Malte 20 January 2014 (has links) Diese Arbeit besteht aus drei Teilen. Im ersten Teil wurde Holz mit verschiedenen, kommerziell erhältlichen Kieselsolen behandelt, die unterschiedliche pH-Werte und Oberflächenmodifikationen aufwiesen. Basische Kieselsole vermochten nicht in das Holz einzudringen, da ihr pH-Wert während des Eindringens absinkt und es zur Ausfällung des Kieselsols im Holz kommt. Neutrale und saure Kieselsole hingegen konnten problemlos in das Holz eingebracht werden. Eines der sauren Kieselsole, welches mittels Aluminumoxychlorid kationisch modifiziert war, reduzierte die Wasseraufnahme und den pilzlichen Abbau durch die Braunfäule Coniophora puteana (Kiefer) und die Weißfäule Trametes versicolor (Buche). Im Bläuetest zeigte sich ein verminderter Befall durch Aureobasidium pullulans, allerdings kein kompletter Schutz gegen diesen Pilz. Auch die kleinsten verfügbaren Partikelgrößen für Kieselsole ergaben keinerlei Zunahme des Zellwandvolumens (chemische Quellung, Bulking), was darauf hinweist, dass eine Eindringung in die Zellwand nicht stattfand. Es erscheint daher nicht möglich, Kieselsole in die Zellwand einzubringen und die Dimensionsstabilität des Holzes zu verbessern. Da Kieselsol lediglich in die Lumen der Holzzellen eingebracht werden kann, kann die Behandlung nicht als wirkliche Holzmodifizierung angesehen werden. Wegen der vielversprechenden Ergebnisse in den Wasseraufnahmeversuchen und den Pilztests wurde mit dem kationischen Kieselsol behandeltes Holz thermogravimetrisch und in einem Brandtest untersucht. Im thermogravimetrischen Test zeigte sich eine leicht verminderte Pyrolysetemperatur (eine übliche Wirkung von Feuerschutzmitteln), die Holzkohlemenge war jedoch nicht erhöht. Dies zeigt, dass die Menge an brennbaren Gasen, die während der Pyrolyse freiwerden, durch das Kieselsol nicht vermindert wurde. Auch zeigte die resultierende Holzkohle gleiche Oxidationseigenschaften wie die Holzkohle der Kontrollen. Im Brandtest wurden die Branddauer, die Brandgeschwindigkeit und der Gewichtsverlust vermindert. Das Nachglühen der Holzkohle wurde komplett unterbunden. Alle diese Effekte waren jedoch relativ klein verglichen mit den Effekten eines kommerziell erhältlichen Feuerschutzsalzes, welches ebenfalls als Referenzbehandlung getestet wurde. Im zweiten Teil der Arbeit wurden acetoxyfunktionelles Silan und verschiedene Polydimethylsiloxane (PDMS) mit Acetanhydrid kombiniert, um Holz zu acetylieren. Die PDMS hatten die folgenden Funktionalitäten: Amino, Acetoxy, Hydroxy und nicht-funktionell. Die beste Hydrophobierung des acetylierten Holzes wurde durch die Kombination mit acetoxyfunktionellem PDMS erreicht, welches anschließend in verschiedenen Konzentrationen getestet wurde. Eine Konzentration von 1% in Acetanhydrid zeigte bereits eine maximale Hydrophobierung, welches darauf schließen lässt, dass die inneren Oberflächen des Holzes mit dem PDMS belegt und hydrophobiert wurden. Die Pilzresistenz des behandelten Holzes wurde durch die Kombination mit dem PDMS nicht beeinflusst. Bei Wasserlagerung zeigte sich eine leichte Überquellung des Holzes, welches mit der Kombination von Acetanhydrid und PDMS acetyliert worden war. Untersuchungen der Biegefestigkeit und Bruchschlagarbeit ergaben jedoch keinen Einfluss. Im dritten Teil der Arbeit wurden wasserbasierte Emulsionen von funktionellen PDMS zur Imprägnierung von Holz eingesetzt. Es wurde untersucht, ob Resistenz gegen pilzlichen Abbau und Hydrophobierung wie auch erhöhte Dimensionsstabilität mit dieser Behandlung erreicht werden kann. Die α-ω-gebundenen Funktionalitäten der PDMS waren: Amino, Carboxy, Epoxy und Carbobetain. Die stärkste Hydrophobierung wurde mit dem carbobetain-funktionellen PDMS erreicht, allerdings ergab diese Behandlung keine verbesserte Pilzresistenz gegenüber einem Abbau durch Coniophora puteana und Trametes versicolor. In dieser Hinsicht die beste Wirkung zeigte die Behandlung mit carboxy-funktionellem PDMS. Dieses Material verminderte jedoch die Wasseraufnahmerate nur ungenügend und wurde außerdem stark ausgewaschen. Daher wurden in der Folge amino-funktionelles und carboxy-funktionelles PDMS kombiniert, um durch eine Salzbildung der beiden Funktionalitäten eine verbesserte Fixierung des carboxy-funktionellen Siloxans zu erreichen. Die Kombination zeigte bei einem Überschuss an amino-funktionellem PDMS eine gute Fixierung, jedoch ansonsten keine Synergieeffekte. Die Dimensionsstabilität des Holzes wurde durch die Behandlungen nur sehr geringfügig verbessert. Hierfür müsste eine gute Eindringung der Chemikalien in die Zellwand erfolgen und ein dauerhaftes Bulking erzielt werden. Die Eindringung der Chemikalien in die Zellwand war jedoch in allen Fällen nur gering. 634 Wood modification Silica sol Silicone Polydimethylsiloxane Silane Wood preservation Acetylation Forstwirtschaft (PPN621305413)
214	Sensing Through Structure Slyper, Ronit 30 April 2012 (has links) We present an approach to designing input devices that focuses on the structure of materials. We explore and visualize how a material reacts under manipulation, and harness the material’s properties to design new movement sensors. Two benefits spring out of this approach. One, simpler sensing emerges from making use of existing structure in the material. Two, by working with the natural structure of the material, we create input devices with readily recognizable affordances. We present six projects using this approach. We use the natural structure (coordination) of the human body to enable a mapping from five clothing-mounted accelerometers to high-quality motion capture data, creating a low-cost performance animation system. We design silicone input devices with embedded texture allowing single-camera tracking. We study squishable, conformable materials such as foam and silicone, and create a vocabulary of unit structures (shaped cuts in the material) for harnessing patterns of compression/tension to capture particular manipulations. We use this vocabulary to build soft sensing skeletons for stuffed animals, making foam cores with e-textile versions of our unit structures. We also use this vocabulary to design a tongue input device for a collaboration with Disney Imagineering. Finally, we rethink this vocabulary and apply it to capturing, using air pressure sensors, manipulations of hollow 3D-printed rubber shapes, and 3D-print several interactive robots incorporating the new vocabulary. sensors input devices soft input devices materials silicone human computer interaction Computer Sciences
215	A Study of the Erosion Mechanisms of Silicone Rubber Housing Composites Ghunem, Refat January 2014 (has links) Silicone rubber insulators have been replacing conventional insulators made from toughened glass and porcelain in the power system, due to the non-wetting properties of silicone rubber insulation housing. However, silicone elastomers will eventually wet-out leading to leakage current and dry-band arcing giving rise to erosion of the silicone housing material, and eventually insulation failure. Well-established formulations of insulation housing composites have been developed and validated for erosion performance using the standard inclined plane tracking and erosion test, yet no such formulations have been developed and validated for DC. With the assumption that equivalent performance will be obtained, an adjustment to the creepage distance has been the measure taken in using the AC insulators for DC, without taking into consideration the differing aspects of the DC as compared to the AC dry-band arcing. This practice questions the existing DC insulators as an unknown entity that requires further investigation to ensure the reliability of the power supply. In addition recent demands have been raised to develop housing composites specifically for DC outdoor insulation, particularly with the increased interest in DC. It follows that developing a standard DC inclined plane tracking and erosion test is necessary for the development of more suitable materials for outdoor DC insulation applications. This thesis provides a thorough study of the DC dry-band arcing mechanism as opposed to the well understood mechanism of the AC dry-band arcing and provides a mechanistic understanding to the dry-band arcing leading to erosion as a foundation for the development of a standard DC inclined plane tracking and erosion test. To this end, the influence of inorganic fillers in silicone rubber on resisting erosion due to dry-band arcing is also presented, as an essential step towards obtaining more suitable silicone composite for DC outdoor insulation applications.
216	Interpenetrating Polymer Networks Templated on Bicontinuous Microemulsions Containing Silicone Oil, Methacrylic Acid and Hydroxyethyl Methacrylate Castellino, Victor 23 July 2013 (has links) Interest in microemulsions as potential platforms for polymerization stems from the wide range of phase behaviour dependant morphologies and domain sizes that can be generated in a low viscosity environment. By introducing polymerizable components into the oil and aqueous phases of a microemulsion, we may essentially create a low viscosity, low interfacial tension, bicontinuous template with nanostructured morphologies and narrow domain size distributions analogous to those generated through conventional interpenetrating polymer network (IPN) synthesis and spinodal decomposition. The main objective of this dissertation is to test the application of bicontinuous microemulsion templates to the formulation and polymerization of a silicone-hydrogel IPN. In addition, the project expands on the classical definition of IPNs to a scale of entanglement at the level of groups of polymer chains, as opposed to molecular or chain-level entanglement. This study is divided into two main parts. In the first part, silicone microemulsions were developed and characterized according to the Hydrophilic-Lipophilic Difference (HLD) framework. The hydrophobicity of silicone oils, the characteristic curvature of silicone surfactants and the co-surfactant contribution of methacrylic acid (MAA) and hydroxyethyl methacrylate (HEMA) were quantified. These findings led to the successful formulation of bicontinuous microemulsions (μEs) containing silicone oil, silicone alkyl polyether and reactive monomers in aqueous solution. Ternary phase diagrams of these systems revealed the potential for silicone-containing polymer composites with bicontinuous morphologies. In the second part of this study, the formulation and simultaneous polymerization of polydimethylsiloxane-poly(methacrylic acid – hydroxyethyl methacrylate), (PDMS-P(MAA-HEMA) IPNs from bicontinuous microemulsions was demonstrated. Laser scanning confocal microscopy (LSCM) on swollen polymers highlights aqueous pathways, and indicates the formation of bicontinuous morphologies with domain sizes at equilibrium swelling ranging from ~100 nm to 1 μm. Incorporating polymerizable surfactants into the microemulsion aided in stabilizing the initial microemulsion structure during polymerization. The process developed demonstrates a simple, single-step polymerization approach to forming IPNs from low viscosity microemulsion templates, and could potentially be extended to a variety of hydrophilic and hydrophobic monomers. Microemulsion Polymerization Hydrophilic Lipophilic Difference Silicone Microemulsion Interpenetrating Polymer Network 0542 0541 0495
217	Interpenetrating Polymer Networks Templated on Bicontinuous Microemulsions Containing Silicone Oil, Methacrylic Acid and Hydroxyethyl Methacrylate Castellino, Victor 23 July 2013 (has links) Interest in microemulsions as potential platforms for polymerization stems from the wide range of phase behaviour dependant morphologies and domain sizes that can be generated in a low viscosity environment. By introducing polymerizable components into the oil and aqueous phases of a microemulsion, we may essentially create a low viscosity, low interfacial tension, bicontinuous template with nanostructured morphologies and narrow domain size distributions analogous to those generated through conventional interpenetrating polymer network (IPN) synthesis and spinodal decomposition. The main objective of this dissertation is to test the application of bicontinuous microemulsion templates to the formulation and polymerization of a silicone-hydrogel IPN. In addition, the project expands on the classical definition of IPNs to a scale of entanglement at the level of groups of polymer chains, as opposed to molecular or chain-level entanglement. This study is divided into two main parts. In the first part, silicone microemulsions were developed and characterized according to the Hydrophilic-Lipophilic Difference (HLD) framework. The hydrophobicity of silicone oils, the characteristic curvature of silicone surfactants and the co-surfactant contribution of methacrylic acid (MAA) and hydroxyethyl methacrylate (HEMA) were quantified. These findings led to the successful formulation of bicontinuous microemulsions (μEs) containing silicone oil, silicone alkyl polyether and reactive monomers in aqueous solution. Ternary phase diagrams of these systems revealed the potential for silicone-containing polymer composites with bicontinuous morphologies. In the second part of this study, the formulation and simultaneous polymerization of polydimethylsiloxane-poly(methacrylic acid – hydroxyethyl methacrylate), (PDMS-P(MAA-HEMA) IPNs from bicontinuous microemulsions was demonstrated. Laser scanning confocal microscopy (LSCM) on swollen polymers highlights aqueous pathways, and indicates the formation of bicontinuous morphologies with domain sizes at equilibrium swelling ranging from ~100 nm to 1 μm. Incorporating polymerizable surfactants into the microemulsion aided in stabilizing the initial microemulsion structure during polymerization. The process developed demonstrates a simple, single-step polymerization approach to forming IPNs from low viscosity microemulsion templates, and could potentially be extended to a variety of hydrophilic and hydrophobic monomers. Microemulsion Polymerization Hydrophilic Lipophilic Difference Silicone Microemulsion Interpenetrating Polymer Network 0542 0541 0495
218	Synthesis And Characterization Of Waterborne Silane Coupling Agent Containing Silicone-acrylic Resin Akin, Ozlem 01 September 2003 (has links) (PDF) In this study, waterborne silicone-acrylic resin was produced by incorporating silane coupling agent onto the acrylic main chain by emulsion polymerization. After applying different emulsion polymerization processes, batch polymerization was selected to obtain the resultant resin. Thus finding the optimum conditions by investigating the parameters of monomer ratios, initiators, concentrations of initiators, temperature and time, the novel resin was synthesized. Water-dispersed silicone-acrylic resin was produced using butyl acrylate, butyl methacrylate, methyl methacrylate, 3-methacryloxypropyltrimethoxysilane and acrylic acid as a hydrophilic monomer. 2,2&#039 / -azobis[2-(2-imidazolin-2yl)propane]dihydrogen chloride as thermal initiator and t-butyl hydroperoxide / sodiummetabisulfite as redox couple initiator were selected as the best effective initiators for the production of silicone-acrylic resin. The reaction temperature of the preparation of silicone-acrylic resin was taken as 50&amp / #61616 / C maximum to prevent gelation and agglomeration. To understand the effect of silane coupling agent on the properties of the resin, a new resin was synthesized which did not contain any silane coupling agent and the properties of both resins were determined by FTIR spectroscopy, thermal analysis and mechanical tests. Their physical properties were also determined. The addition of 3-methacryloxypropyltrimethoxysilane to the main chain increased the hardness and the gloss values but slightly decreased the abrasion resistance value of the silicone-acrylic resin. All the samples showed superior flexibility. The produced polymer which contains silane coupling agent showed excellent adhesion properties on glass and metal plates. QD Polymers, Macromolecules 380-388
219	Production And Properties Of Glass Bonded Apatite-wollastonite Bioceramics Vakifahmetoglu, Cekdar 01 August 2005 (has links) (PDF) Apatite containing bioceramic materials are considered to be potentially useful for replacement or repair of natural bone. In the present study, the aim was to produce a new composite bioceramic containing crystalline apatite and wollastonite phases with a bimodal grain size distribution. The manufacturing scheme was based on the liquid phase sintering process in which the compacts pressed from powders of apatite (HAP or Si&shy / HAP) and pseudowollastonite was sintered in the presence of a liquid phase. Three distinct fluxing agents, magnesium flux (MCAS), sodium feldspar and sodium frit (NCAS), were prepared to act as additives for generating the liquid phase during sintering. Among those, the use of sodium frit resulted in the expected bimodal microstructural assembly. During the sintering studies, it was discovered that the apatite component of the ceramic was prone to compositional modifications by reaction with the liquid phase. This interaction resulted in a formation of siliconized HAP which crystallized in the form of rod-like grains. Meanwhile wollastonite grains tended to exhibit faceted equiaxed morphology and bonded to rod-like apatite grains with the help of a glassy phase. The results showed significant enhancement in the mechanical properties of apatite-wollastonite composites compared to phase pure hydroxyapatite. For example, the sample with 47.5 wt% Si-HAP2 + 47.5 wt% W + 5 wt% NCASfrit had the highest value of flexural strength, 83.6 MPa, which was almost twice that of hydroxyapatite, 46.3 MPa. The results for other properties such as compressive strength, hardness and fracture toughness also demonstrated the benefit of apatite-wollastonite composite approach. TP Biotechnology 248.13-248.65
220	Anwendungen der NMR-MOUSE in Prozesstechnik, Materialforschung und Medizin Krüger, Mirko. January 2006 (has links) (PDF) Techn. Hochsch., Diss., 2006--Aachen.

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