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311	Effects of manufacturing chain on mechanical performance : Study on heat treatment of powertrain components Fahlkrans, Johan January 2015 (has links) The increasing demands for lightweight designs with high strength call for improved manufacturing processes regarding heat treatment of steel. The manufacturing process has considerable potential to improve the mechanical performance and to obtain more reliable results with less variation. The goal of this thesis is to establish new knowledge regarding improved manufacturing processes in industrial heat treatment applications. Three research questions with associated hypotheses are formulated. Process experiments, evaluation of the mechanical performance, and modelling of the fatigue behaviour assist in answering the questions. The gas quenching procedure following low-pressure carburising differs from the conventional procedure of gas carburising and oil quenching. It is shown that the introduction of a holding time during the low-temperature part of the quench has a positive effect on mechanical properties, with some 20 percent increase in fatigue strength. This is attributed to increased compressive surface residual stress and stabilisation of austenite. Tempering is a common manufacturing process step following hardening in order to increase the toughness of the steel. However, the research shows that the higher hardness from eliminating tempering from the manufacturing process is beneficial for contact fatigue resistance. The untempered steel showed not only less contact fatigue damage but also a different contact fatigue mechanism. Straightening of elongated components is made after heat treatment in order to compensate for distortions. The research shows that straightening of induction hardened shafts may lead to lowering of the fatigue strength of up to 20 percent. A fracture mechanics based model is developed to estimate the effects of straightening on fatigue strength. / Ökande krav på höghållfasta lättviktskonstruktioner kräver förbättrade tillverkningsprocesser för värmebehandling av stål. Det finns stor potential att förbättra mekanisk prestanda och att erhålla mer tillförlitliga resultat med mindre variation genom att förbättra tillverkningsprocessen. Målet med denna avhandling är att etablera ny kunskap kring tillverkningsprocesser inom industriella värmebehandlingsapplikationer. Tre forskningsfrågor med tillhörande hypoteser formuleras. Processexperiment, utvärdering av mekanisk hållfasthet och modellering av utmattningsbeteende bygger upp besvarandet av frågorna. Gaskylning som följer lågtrycksuppkolning skiljer sig från det konventionella förfarandet med gasuppkolning och släckning i olja. Resultaten visar att en hålltid i den nedre delen av kylningsförloppet har positiv inverkan på utmattningshållfastheten. Orsaken till förbättringen hänförs till ökade tryckrestspänningar samt stabilisering av austenit. Anlöpning är en vanlig tillverkningsprocess som efterföljer härdning för att öka stålets seghet. Forskningen visar däremot att den högre hårdheten för oanlöpt stål är fördelaktig för motstånd mot kontaktutmattning. Oanlöpt stål visade mindre mängd kontaktutmattningsskador och även en annan skademekanism. Riktning av långa komponenter görs efter värmebehandling för att kompensera för de formförändringar som uppstår. Forskningen visar att riktning av induktionshärdade axlar kan leda till sänkning av utmattningshållfastheten med upp till 20 procent. En brottmekanisk modell som uppskattar effekten av riktning på utmattningshållfasthet presenteras. / <p>QC 20150410</p> Heat treatment case hardening carburising induction hardening gas quenching tempering straightening fatigue strength contact fatigue fracture mechanics
312	Development of a heat treatment method to form a duplex microstructure of lower bainite and martensite in AISI 4140 stee Claesson, Erik January 2014 (has links) Research on bainite and martensite structures has indicated that lower bainite needles have a refining effect on the lath martensitic structure. Lower bainte needles partitions prior austenite grains and will consequently have a refining effect on the subsequent formed lath martensite. Smaller austenite grains will result in smaller lath martensitic packets and blocks and will result in enhanced mechanical properties. In order to create a variation of lower bainte structure in a matrix of martensite, two different heat treating methods were tested. The work was focused towards the formation of lower bainite during isothermal heat treating in molten salt, above and below the MS-temperature. Both un-tempered and tempered samples were analyzed .Two different materials were tested, both were AISI 4140 but with a slightly difference in hardenability. The material provided by Ovako Steel is 326C and 326F the later had a higher hardenability. In order to better distinguish the two structures from each other when studied under a microscope, a variation of etching methods were tested. It was possible to create a variation of lower bainite structures in a matrix of martensite. 326F shows less amount of lower bainite and provides a higher average surface hardness before tempering. AISI 4140 326C 326F Isothermal heat treatment Martensite Bainite Molten salt vacuum furnace gas quenching. Metallurgy and Metallic Materials Metallurgi och metalliska material
313	Manufacturing of 42SiCr-Pipes for Quenching and Partitioning by Longitudinal HFI-Welding Kroll, Martin, Birnbaum, Peter, Zeisig, Josephine, Kraeusel, Verena, Wagner, Martin Franz-Xaver 31 July 2019 (has links) In the pipe manufacturing and pipe processing industry, the demand for cost-effective pipes with high strength and good ductility is increasing. In the present study, the inductive longitudinal welding process was combined with a Quenching and Partitioning (Q&P) treatment to manufacture pipes with enhanced mechanical properties. The aim of the Q&P process is to establish a martensitic structure with increased retained austenite content. This allows for the beneficial use of both phases: the strength of martensite as well as the ductility of retained austenite. A 42SiCr steel, developed for Q&P processes, was joined at the longitudinal seam by a high-frequency induction (HFI) welding process and was subsequently heat-treated. The applied heat treatments included normalizing, austenitizing, quenching, and two Q&P strategies (Q&P-A/Q&P-B) with distinct quenching (Tq = 200/150 °C) and partitioning temperatures (Tp = 300/250 °C). Investigations of the microstructures revealed that Q&P tubes exhibit increased amounts of retained austenite in the martensitic matrix. Differences between the weld junction and the base material occurred, especially regarding the morphology of the martensite; the martensite found in the weld junction is finer and corresponds more to the lath-type morphology, compared to the base material in the circumference. In all zones of the welded tube circumference, retained austenite has been found in similar distributions. The mechanical testing of the individual tubes demonstrated that the Q&P treatments offer increased strength compared to all other states and significantly improved ductility compared to the quenched condition. Therefore, the approach of Q&P treatment of HFI-welded tubes represents a route for the mass production of high-strength tubular products with improved ductility. info:eu-repo/classification/ddc/620 ddc:620 Induktionsschweißen; Restaustenit
314	Zhášení fluorescence ve studiu agregačního chování koloidů / Fluorescence quenching in study of aggregation behavior of colloids Srholcová, Barbora January 2010 (has links) This work focuses on examination of hyaluronan-sulfactant aggregates in term of determination of aggregate number. The value of critical micellar concentration (CMC) cetyltrimethylammonium bromide (CTAB) in three different solvents (water, phosphate buffer and physiological solution). Next the effect of the native hyaluronan supplement on the value of CMC was examined. It wasfound out that the solvent has the biggest effect on the value of CMC whilst the hyaluronan supplement affects CMC only a little. The aggregate number (Nagg) CTAB and the effect of the native hyaluronan supplement were determined out by means of fluorescence quenching. Pyrene was used as a fluorescence probe. Iodine and cetylpyridinium chloride (CPC) were used as quenchers. Sulfactant was dissolved in three different solvents (water, phosphate buffer and physiological solution). Not only the hyaluronan supplement but also the used solvent has the strong effect on the value of the aggregate number. When using 10mM CTAB dissolved in physiological solution the value of Nagg was 119 ± 4 while the value was half in buffer. Then we found out that in most cases the hyaluronan supplement reduces the value of the aggregate number.
315	Hydrothermal Synthesis and Characterization of Fluorescent Carbon-Based Materials Produced by Hydrogen Peroxide Oxidation of Biochar Davies, Bethany Ruth 01 September 2020 (has links) No description available. Chemistry biochar chemistry hydrothermal synthesis characterization fluorescence green agglomerations quenching hydrogen peroxide potassium iodide SEM heterogeneous nanoscale microscale emission visible range particles
316	Patterned Well-Ordered Mesoporous Silica Films for Device Fabrication Crosby, Todd A 01 January 2009 (has links) (PDF) Developing effective methods of generating thin metal oxide films are important for sensing and separations applications. An obstacle to device fabrication is controlling the size and spatial orientation of domain level pores while retaining the ability to generate arbitrary device level patterns. Well-ordered hexagonally packed cylindrical pores were created by taking advantage of block copolymer self-assembly followed by selective condensation of silica precursors using supercritical carbon dioxide as the solvent. It was possible to control the pore size by choosing PEO-PPO-PEO (Pluronic® series) triblock copolymers of differing molecular weights. These processes were then incorporated with conventional lithographic techniques to generate patterns on the device scale. The first route involves replacement of the organic acid catalyst with a photoacid generator that restricts acid formation by masking pre-determined regions then exposing to UV light. The second route is similar except that addition of a cross-linking agent limits acid diffusion while reversing the tone of the final pattern. The third route avoids acid diffusion altogether and generates the pattern through reactive ion etching through a sacrificial photoresist. A completely different fourth route was taken and nanoimprint lithography was used to generate sub-micron patterns with alternate block copolymers. The feasibility of the preliminary devices generated in this thesis has been examined through particle diffusion experiments. Samples were soaked in a fluorescent dye then exposed to multiple sizes of gold nanoparticles. Fluorescence quenching was then monitored to determine pore accessibility. Well-ordered mesoporous silica Accessible pores Device fabrication methods Lithography Dye quenching Chemical engineering Chemical Engineering Other Materials Science and Engineering Polymer Science
317	Biochemical applications of DsRed-monomer utilizing fluorescence and metal-binding affinity Goulding, Ann Marie 09 March 2011 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / The discovery and isolation of naturally occurring fluorescent proteins, FPs, have provided much needed tools for molecular and cellular level studies. Specifically the cloning of green fluorescent protein, GFP, revolutionized the field of biotechnology and biochemical research. Recently, a red fluorescent protein, DsRed, isolated from the Discosoma coral has further expanded the pallet of available fluorescent tools. DsRed shares only 23 % amino acid sequence homology with GFP, however the X-ray crystal structures of the two proteins are nearly identical. DsRed has been subjected to a number of mutagenesis studies, which have been found to offer improved physical and spectral characteristics. One such mutant, DsRed-Monomer, with a total of 45 amino acid substitutions in native DsRed, has shown improved fluorescence characteristics without the toxic oligomerization seen for the native protein. In our laboratory, we have demonstrated that DsRed proteins have a unique and selective copper-binding affinity, which results in fluorescence quenching. This copper-binding property was utilized in the purification of DsRed proteins using copper-bound affinity columns. The work presented here has explored the mechanism of copper-binding by DsRed-Monomer using binding studies, molecular biology, and other biochemical techniques. Another focus of this thesis work was to demonstrate the applications of DsRed-Monomer in biochemical studies based on the copper-binding affinity and fluorescence properties of the protein. To achieve this, we have focused on genetic fusions of DsRed-Monomer with peptides and proteins. The work with these fusions have demonstrated the feasibility of using DsRed-Monomer as a dual functional tag, as both an affinity tag and as a label in the development of a fluorescence assay to detect a ligand of interest. Further, a complex between DsRed-Monomer-bait peptide/protein fusion and an interacting protein has been isolated taking advantage of the copper-binding affinity of DsRed-Monomer. We have also demonstrated the use of non-natural amino acid analogues, incorporated into the fluorophore of DsRed-Monomer, as a tool for varying the spectral properties of the protein. These mutations demonstrated not only shifted fluorescence emission compared to the native protein, but also improved extinction coefficients and quantum yields. fluorescent protein labeling non-natural mutagenesis ligand fishing protein-protein interactions fluorescence quenching metal-binding affinity red fluorescent protein Proteins -- Affinity labeling Protein binding Mutagenesis Protein-protein interactions
318	Inverse Heat Conduction problem of the Quenching a Rotary Cylinder by Multiple Water Impinging Jets Uriarte Sabín, Leticia January 2021 (has links) The thesis deals with solving the time dependent inverse heat conduction and heat transfer problem of the quenching process of a rotary solid cylinder by multiple impinging water jets. The development of such investigation consists of two parts that complement each other. As is the case of any scientific experiment, first of all, an initial hypothesis will be set to be demonstrated theoretically. The numerical validation is carried out with a series of artificial cooling curve data and sensitivity analyses in the inverse solution. Then, a series of recorded temperature data were implemented into the inverse solution to predict the surface heat transfer during the quenching process.The numerical study consists of the solution of a two-dimensional linear time dependent inverse heat conduction problem based on the Generalized Minimal Residual Method (GMRES). The inverse solution method is based on the solution of an iterative problem, validated by a set of artificial temperature data. Such solution allows the prediction of the surface temperature and heat flux distribution in the quenching process, making use of recorded internal temperatures of the specimen. In order to solve the problem, the Matlab and Comsol Multiphysics programs were used. The GMRES algorithm was written as Matlab code, while the computational domain was defined in Comsol Multiphysics. Moreover, both programs collaborated in the solution of the inverse problem. Once the problem was solved, a sensitivity analysis was carried out in order to study the dependence of the numerical result on various parameters and optimize the inverse solution setup for application of recorded experimental data.The validated inverse solution setup examined by the sensitivity analyses was used on a set of experimental data, allowing the demonstration of the initially proposed hypothesis. This sensitivity analyses were performed consecutively for different key parameters regarding the numerical definition of the problem. The values for the parameters were considered optimal when minimum values for the error of the predicted surface temperature were recorded. In this case, the analyzed parameters were the m-value, mesh cell size, effect of noise, initial quenching temperature and quenching cooling rate. The connection between the experimental and numerical studies is obvious, as the first oneprovides the latter with input data of the inner temperature data of the specimen for the solving of the inverse problem, as is the case of the practical application of the code developed in the present thesis, and the inverse solution is essential in order to predict thesurface temperature and heat flux that are key information in studying quenching systems. Quenching Inverse solution Unsteady heat conduction Generalized minimum residual method rotary cylinder Mechanical Engineering Maskinteknik Materials Engineering Materialteknik Environmental Engineering Naturresursteknik
319	Dual Dye-Enhanced FIT2 Probes for Sequence-Specific Detection of RNA Schöllkopf, Sophie 12 May 2023 (has links) Die Fähigkeit Nukleinsäuren in lebenden Organismen nachzuweisen und zu visualisieren, ist entscheidend für das Verständnis zellulärer Prozesse. Die Forschungsgruppe von Prof. Dr. Oliver Seitz hat zu diesem Zweck fluorogene FIT-Hybridisierungssonden entwickelt, die die besondere Eigenschaft der Cyaninfarbstoffe Thiazolorange und Chinolinblau nutzen, stärker zu fluoreszieren, wenn sie in die beengte Umgebung eines Nukleinsäureduplex aus Sonde und spezifischer Zielsequenz eingebracht werden. Obwohl FIT-Sonden eine gute Fluoreszenzverstärkung und Spezifität aufweisen, wäre eine weitere Verbesserung ihrer Helligkeit und des Signal-Hintergrund-Verhältnisses wünschenswert. Um dies zu erreichen, wurde in dieser Arbeit ein Ansatz untersucht, bei dem FIT-Sonden mit zwei Fluorophoren desselben Typs ausgestattet werden (FIT2-Strategie). Dies sollte sowohl die Helligkeit der Sonde erhöhen, als auch die Fluoreszenz im Einzelstrang und bei Hybridisierung mit fehlgepaarter RNA durch eine Mischung aus kontaktvermittelter Fluo-reszenzlöschung und strahlungsfreiem Energietransfer verringern. Verschiedene Sonden-längen, Farbstoffabstände und -positionen wurden untersucht und es konnte bestätigt werden, dass FIT2-Sonden eine höhere Extinktionskoeffizienten, größere Fluoreszenzver-stärkung und eine bessere Selektivität aufweisen als einfach markierte Sonden. Außerdem behalten sie ihre Fähigkeit zur Unterscheidung von Match- und Mismatch-Zielen in visko-sem Zelllysat besser bei. Zudem konnte gezeigt werden, dass das FIT2-Konzept durch Hinzufügen eines hybridisie-rungsunempfindlichen Cyanin 7 Farbstoffs zu den Sonden dahingehend erweitert werden kann, dass eine ratiometrische Detektion der hybridisierten Sonde möglich ist und Hellig-keitsunterschiede aufgrund von lokalen Schwankungen der Sondenkonzentration bei der Bildgebung lebender Zellen korrigiert werden können. Mit diesen qFIT2-Sonden konnten Jurkat und CCRF-CEM T-Zellen in einem Mikroskopie-basierten Experiment unterschieden werden. / The ability to detect and visualize nucleic acids in living organisms is crucial for under-standing cellular processes. For this purpose, the research group of Prof. Dr. Oliver Seitz has introduced fluorogenic forced intercalation (FIT) hybridization probes, which exploit the unique property of the cyanine dyes thiazole orange and quinoline blue to exhibit increased fluorescence when placed in the constrained environment of a nucleic acid du-plex formed between probe and specific target sequence. Although FIT probes demon-strate solid fluorescence enhancement and specificity, further improvement of their abso-lute brightness and signal-to-background ratio would be desirable. To achieve this, the present thesis investigated an approach that equips FIT probes with two identical fluorophores (FIT2 strategy). This should on the one hand increase probe brightness, while simultaneously reducing fluorescence in the single strand and when hy-bridized to mismatched RNA, through a combination of contact-mediated quenching and non-radiant energy transfer. Various probe lengths, dye-dye distances and positions were screened, and it could be confirmed that FIT2 probes have higher extinction coefficients, greater fluorescence enhancement and better selectivity than their mono-dye counter-parts. Moreover, they better retain their ability to discriminate match and mismatch tar-gets in viscous cell lysate. Finally, it was demonstrated that the FIT2 concept can be extended by adding a hybridiza-tion-insensitive Cyanine 7 dye to the probes, allowing ratiometric detection of hybridized probe and correction of brightness differences due to local fluctuations in probe concen-tration during live-cell imaging. Using these qFIT2 probes, Jurkat and CCRF-CEM T-cells could be distinguished in a microscopy-based experiment. RNA Detektion Hybridisierungssonden Erzwungene Interkalation Thiazol Orange Quinolin Blau Selbst-Löschung RNA detection hybridisation probes forced intercalation thiazol orange quinoline blue self-quenching 572 Biochemie ddc:572
320	Photoactivatable Organic and Inorganic Nanoparticles in Cancer Therapeutics and Biosensing Mathew, Mona 01 January 2014 (has links) In photodynamic therapy a photosensitizer drug is administered and is irradiated with light. Upon absorption of light the photosensitizer goes into its triplet state and transfers energy or an electron to oxygen to form reactive oxygen species (ROS). These ROS react with biomolecules in cells leading to cell damage and cell death. PDT has interested many researchers because of its non-invasiveness as compared to surgery, it leaves little to no scars, it is time and cost effective, it has potential for targeted treatment, and can be repeated as needed. Different photosensitizers such as porphyrines, chlorophylls, and dyes have been used in PDT to treat various cancers, skin diseases, aging and sun-damaged skin. These second generation sensitizers have yielded reduced skin sensitivity and improved extinction coefficients (up to ~ 105 L mol-1 cm-1). While PDT based on small molecule photosensitizers has shown great promise, several problems remain unsolved. The main issues with current sensitizers are (i) hydrophobicity leading to aggregation in aqueous media resulting in reduced efficacy and potential toxicity, (ii) dark toxicity of photosensitizers, (iii) non-selectivity towards malignant tissue resulting in prolonged cutaneous photosensitivity and damage to healthy tissue, (iv) limited light absorption efficiency, and (v) a lack of understanding of where the photosensitizer ends up in the tissue. In this dissertation research program, these issues were addressed by the development of conducting polymer nanoparticles as a next generation of photosensitizers. This choice was motivated by the fact that conducting polymers have large extinction coefficients ( > 107 L mol-1 cm-1), are able to undergo intersystem crossing to the triplet state, and have triplet energies that are close to that of oxygen. It was therefore hypothesized that such polymers could be effective at generating ROS due to the large excitation rate that can be generated. Conducting polymer nanoparticles (CPNPs) composed of the conducting polymer poly[2-methoxy-5-(2-ethylhexyl-oxy)-p-phenylenevinylene] (MEH-PPV) were fabricated and studied in-vitro for their potential in PDT application. Although not fully selective, the nanoparticles exhibited a strong bias to the cancer cells. The formation of ROS was proven in-vitro by staining of the cells with CellROX Green Reagent, after which PDT results were quantified by MTT assays. Cell mortality was observed to scale with nanoparticle dosage and light dosage. Based on these promising results the MEH-PPV nanoparticles were developed further to allow for surface functionalization, with the aim of targeting these NPs to cancer cell lines. For this work targeting of cancers that overexpress folate receptors (FR) were considered. The functionalized nanoparticles (FNPs) were studied in OVCAR3 (ovarian cancer cell line) as FR+, MIA PaCa2 (pancreatic cell line) as FR-, and A549 (lung cancer cell line) having marginal FR expression. Complete selectivity of the FNPs towards the FR+ cell line was found. Quantification of PDT results by MTS assays and flow cytometry show that PDT treatment was fully selective to the FR+ cell line (OVCAR3). No cell mortality was observed for the other cell lines studied here within experimental error. Finally, the issue of confirming and quantifying small molecule drug delivery to diseased tissue was tackled by developing quantum dot (Qdot) biosensors with the aim of achieving fluorescence reporting of intracellular small molecule/drug delivery. For fluorescence reporting prior expertise in control of the fluorescence state of Qdots was employed, where redox active ligands can place the Qdot in a quenched OFF state. Ligand attachment was accomplished by disulfide linker chemistry. This chemistry is reversible in the presence of sulfur reducing biomolecules, resulting in Qdots in a brightly fluorescent ON state. Glutathione (GSH) is such a biomolecule that is present in the intracellular environment. Experimental in-vitro data shows that this design was successfully implemented. Chemistry

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