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651	Interakce hyaluronan-aminokyseliny / Hyaluronan-amino acids interactions Jugl, Adam Unknown Date (has links) The presented dissertation focuses on non-covalent interactions of hyaluronan of different molecular weights (9–1540 kDa) with basic (oligo)-amino acids (especially arginine) and the antimicrobial peptide cecropin B. High-resolution ultrasonic spectroscopy (HR-US), isothermal titration calorimetry (ITC) and potentiometric titration techniques were chosen to investigate the interactions. The thesis focuses on the characterization of interactions, especially with respect to the used molecular weight of interacting polymers and the ionic strength of the environment. Whether interactions occur or not was determined primarily by the length of the arginine oligomer chain. For monomeric amino acids, the interactions were investigated mainly by potentiometric titrations. Interactions were observable from arginine oligomers with eight monomer units. The molecular weight of hyaluronan mainly affected the intensity of the interactions. The transition between the individual conformations of hyaluronan (rod and random coil) was especially significant. Investigation of interactions was performed in water, in solutions with different concentrations of sodium chloride and in PBS. The sufficiently high ionic strength of the solution was able to suppress the interactions in water between the oligomers of arginine and hyaluronan. The basic antimicrobial peptide cecropin B has been shown to interact with hyaluronan in water but not in PBS. Based on these results, it was possible to conclude that the hyaluronan-cecropin B system would be particularly suitable for topical applications.
652	A calorimetric analysis and solid-solubility examination of aluminium alloys containing low-melting-point elements Ånmark, Niclas January 2012 (has links) The formation of liquid films is a widely known problem in aluminium heat exchanger materials. The phenomenon results in decreased brazeability along with severely deteriorated mechanical properties which might cause assembly collapse. In addition, low-melting-point elements like tin, bismuth and lead are thought to promote grain boundary sliding which is the main deformation mechanism during brazing. Their melting characteristics are not adequately reported in literature. It is therefore of great importance to examine the behaviour of these elements.The main objectives with this work is melting range determination of fin heat exchanger materials, melting detection of low-melting-point elements and calculation of tin, bismuth and lead solid-solubility in aluminium. This work does also involve distribution analysis of such elements in aluminium matrix after heat treatment.These investigations require development of a differential scanning calorimetry (DSC) technique that is applicable for analysis of aluminium fin heat exchanger material containing low-melting-point elements on ppm level. Optimization of the technique includes parameter control; like heating rate, sample mass, reproducibility and choice of crucible material. Laser ablation inductively coupled plasma mass spectroscopy (LA-ICP-MS) is additionally used in order to analyse solid solubility and distribution of low-melting-point elements in aluminium after heat treatment.The developed DSC technique shows a sensitivity limit in the range of 260-600 ppm. It means that it is not possible to detect melting of phases within and below that range. Solid solubility of tin was calculated for the three heat treatment temperatures, 400°C, 500°C and 625°C. Same procedure was applied on bismuth and lead. However, calculated values did not agree with Thermo-Calc. The distribution analysis indicate an exudation of trace elements i.e. diffusion toward surface during heat treatment.In conclusion, more knowledge regarding liquid films in aluminium fin heat exchanger material was obtained. Future work should be to further optimize the DSC technique for trace element analysis for concentrations below 100 ppm. The LA-ICP-MS technique is likely to improve experimentally unverified binary phase diagrams like Al-Bi, Al-Pb and Al-Sn phase diagrams. It can also be used to study exudation behaviour of liquid films. differential scanning calorimetry calibration braze clad fin material heat exchanger aluminium heating rate solid-solubility trace elements melting range Other Materials Engineering Annan materialteknik
653	Contribution des glucides exogènes à la fourniture d’énergie lors d’un effort prolongé : analyse par régression multiple Telmosse, Evelyne 12 1900 (has links) Depuis les années 1970, de nombreuses études ont rapporté l’oxydation des substrats énergétiques exogènes au repos ou pendant l’exercice. Les glucides ont gagné en popularité, puisque leur oxydation a été associée avec une amélioration de la performance. Pour étudier l’oxydation des glucides exogènes pendant l’exercice, deux techniques sont nécessaires : la calorimétrie indirecte respiratoire couplée au traçage isotopique. Ce mémoire décrit, dans un premier temps, la calorimétrie indirecte respiratoire en présentant et démontrant les équations utilisées dans cette méthode. La technique de traçage par isotope 13C ou 14C est ensuite présentée en insistant sur le développement des équations sur lesquelles elle repose. Dans un deuxième temps, les facteurs pouvant influencer le taux d’oxydation et la contribution à la fourniture d’énergie du glucose exogène pendant l’exercice prolongé sont rapportés dans les analyses de régressions multiples. L’objectif de cette analyse est d’identifier les facteurs expliquant le mieux la variation de ces deux variables. La grande variabilité existante dans les conditions expérimentales de la littérature rend difficiles les comparaisons. Par conséquent, les analyses sont effectuées sur une condition standard représentant les caractéristiques les plus communes de la littérature. La grande majorité des études ayant été effectuées sur une population semblable (hommes, entre 65 et 80 kg, âgés entre 20 et 40 ans), davantage de travaux sont nécessaires sur d’autres types de population active et sur des sujets d’âge et de masse corporelle différents. Les résultats de cette méta-analyse pourront aider à améliorer les recommandations sur l’ingestion de glucides au cours de l’exercice prolongé. / Since the 1970s, numerous studies have reported the oxidation of exogenous energy substrates at rest or during exercise. Carbohydrates have gained popularity, as their oxidation has been associated with improved performance. To study the oxidation of exogenous carbohydrates during exercise, two techniques are required: indirect respiratory calorimetry coupled with isotope tracing. This dissertation first describes the respiratory indirect calorimetry by presenting and demonstrating the equations used in this method. The 13C or 14C isotope tracing technique is then presented with emphasis on the development of the equations on which it is based. Second, factors that may influence the oxidation rate and contribution to energy supply of exogenous glucose during prolonged exercise are reported the multiple regression analysis. The objective of this analysis is to identify the factors that best explain the variation in these two variables. The large variability existing in the experimental conditions in the literature makes comparisons difficult. Therefore, the analyses are performed on a standard condition representing the most common characteristics in the literature. Because most of the studies were performed on a similar population (men, between 65 and 80 kg, aged between 20 and 40 years), more work is needed on other types of working populations and on subjects of different ages and body mass. The results of this meta-analysis may help improve recommendations for carbohydrate intake during prolonged exercise. calorimétrie indirecte respiratoire traçage isotopique isotopes de carbone sélection des substrats Indirect respiratory calorimetry Isotope tracing Carbon isotopes Substrate selection Kinesiology / Kinésiologie (UMI : 0575)
654	POST-FIRE ASSESSMENT OF PRESTRESSED CONCRETE BRIDGES Tzu-chun Tseng (11632921) 02 November 2021 (has links) <div>Several truck fires have occurred in recent years involving bridges with reinforced and prestressed concrete components. If the fire burns for a significant period of time (15 minutes or more), bridge inspectors and engineers must determine if the exposure to elevated temperature has reduced the strength and serviceability of the concrete components. Little guidance is available, however, correlating the results of field inspections with the actual condition of the reinforced/prestressed concrete elements. This dissertation presents the results of a research program conducted to develop rational guidance for inspectors and engineers to evaluate concrete bridge elements after a fire event and help them make informed decisions regarding the future status of the bridge. <br></div><div><br></div><div>The research program includes tests on portions of a reinforced concrete deck and three full-scaled AASHTO Type I prestressed girders acquired from a decommissioned highway bridge. In addition, six pretensioned concrete prismatic beam specimens with varying levels of prestress were fabricated and tested. The specimens had cross-sectional dimensions of 8 in. by 8 in. and were designed to simulate the bottom flanges of common I-shaped prestressed concrete bridge girders. The deck specimens and four (of the six) concrete beam specimens were subjected to elevated temperatures using radiation-based heaters. Two (of the six) prismatic specimens built in the laboratory were subjected to a hydrocarbon pool fire test conducted in the field for using approximately 135 gallons of kerosene. The concrete temperature profiles and the deformations of the specimens were measured using thermocouple trees and displacement transducers, respectively. Concrete samples were also cored and examined using various methods (DSC and SEM) to correlate microstructure degradation (microcracking, dehydration of C-S-H, decomposition of calcium hydroxide, etc.) with the measured temperatures through the depth of the specimens. <br></div><div><br></div><div>To evaluate the residual loading-carrying capacities of prestressed concrete girders after being subjected to fire, a hydrocarbon pool fire test was performed on two decommissioned AASHTO Type I girders in the field. Load tests were then conducted on the prestressed girders under both ambient and post-fire conditions. After structural testing, material tests were also conducted on concrete cores taken from the girders to evaluate the post-fire concrete microstructure alteration. Furthermore, three-dimensional finite element models were developed to predict the residual load-carrying capacities and overall structural responses of prestressed concrete bridge girders after being exposed to fire. Results from the numerical models generally agree favorably with experimental observations and provide insights into the behavior of the specimens. A parametric study was performed using the benchmarked finite element models to expand the database and establish design recommendations further. Capacity influence lines for load-carrying capacities and structural stiffness were developed and discussed.</div><div><br></div><div>Based on the results from this research, guidelines for the post-fire assessment of prestressed concrete bridges are included in this dissertation along with a step-by-step checklist. Bridge inspectors can infer the extent of damage to prestressed concrete bridge girders in the event of a fire and develop a post-fire assessment plan cognizant of the findings. In most cases, no more than 1.0 in. of the concrete from the exposed surface undergoes material damage / deterioration due to loss of CH, cracking, and spalling. The impact on the strength of prestressed concrete girders is relatively minor based on experimental results. Their initial stiffness, however, will likely be reduced. <br> </div><br> Structural Engineering Bridge Deck Calcium hydroxide Differential Scanning Calorimetry fire exposure microstructural analysis Numerical analysis Prestressed concrete beams scanning electron microscopy
655	Environmental Stress Cracking of Interior Polymers of aCar (PC/ABS and ABS) Kumar Bhalla, Ashish January 2018 (has links) Today, in the automotive industry, many of the interior parts in the car are made of ABS and PC/ABS polymeric blend. These materials are used in the areas for example: instrument panels, tunnel consoles and door panels. The extensive use of these materials means that it is important to gain in-depth knowledge about the materials,their properties; and also their behaviour when in contact with different chemicals andat different conditions.This study aims to address the potential problem of the polymers used in the interiorof the car - ABS and PC/ABS cracking due to environmental factors. This study proposes to introduce a low-cost test method to compare the polymeric materials and choose the best one for future purposes with the environmental circumstances in mind for materials to have a good service life.During the thesis project, ABS and PC/ABS samples were tested for environmental stress cracking to compare the strained materials against PEG 400 and an assemblyfluid chemical. These tests were conducted at three different temperature levels.Differential Scanning Calorimetry (DSC) was used to verify the polymeric materialsthat the samples were made of. Optical microscope and FTIR were employed to analyzethe samples for crazes / cracks and degradation of material, respectively.This thesis helped in establishing a good starting point for ESC testing of different materials for the organization. The test method was used to test the failure of material sin ESC. It was observed that the chemicals used for the testing were aggressive and accelerated the cracking process in the materials rapidly. Another observation of the tests was that high strain also caused the materials to fail quickly. While comparing the materials, PC/ABS polymer blend was more resistant than ABS materials to cracking when exposed to same strain level during the creep rupture test (test in absence ofchemicals acting as a reference test for ESC). ABS PC/ABS Environmental Stress Cracking Interior Polymers Fourier Transform Infrared Spectroscopy Differential Scanning Calorimetry Optical Microscope Natural Sciences Naturvetenskap Chemical Sciences Kemi
656	Structural Characterization of β-Lactoglobulin in Sodium Dodecyl Sulfate and Lauryldimethylamine Oxide Thompson, Kayla Dawn 10 November 2020 (has links) No description available. Chemical Engineering Biochemistry Analytical Chemistry surfactant surfactant-protein mixtures sodium dodecyl sulfate lauryldimethylamine oxide circular dichroism isothermal titration calorimetry mixed micelles
657	Co-crystal screening of poorly water-soluble active pharmaceutical ingredients. Application of hot stage microscopy on curcumin-nicotinamide system and construction of ternary phase diagram of fenbufen-nicotinamide-water co-crystal system. Chan, Hin Chung Stephen January 2009 (has links) Curcumin is the major phenolic diarylheptane derivative in Curcuma longa and has been reported to possess pharmacological activities. Unfortunately this compound suffers from poor bioavailability and rapid neutral-alkaline degradation. Co-crystal of curcumin is one option under exploration, motivated by the fact that a number of active pharmaceutical ingredient (API) co-crystals with improved dissolution have recently been synthesized. Hence, co-crystallization technique highlights an alternative means to improve the performance of curcumin. Within our work evidences for a co-crystal was ascertained from DSC, Kofler hot stage screening and PXRD, and all confirmed a new crystal phase could have been formed between curcumin and a co-crystallizing agent, nicotinamide. We report that re-crystallization step essentially aids the purification of commercial curcumin, a herbal based actives. Otherwise the prevalence of a new crystal phase in solvent-mediated co-crystallization will be significantly reduced. Besides, phase diagram is an effective tool for the study of solubility behaviours in co-crystal system. In order to acquire related techniques, fenbufen, a poorly water soluble drug, was selected. The result showed the huge difference in solubility between fenbufen and nicotinamide lead to difficulty in the construction of phase diagram. Curcumin Co-crystal Nicotinamide Fenbufen X-ray powder diffractometry Kofler hot stage microscopy Ternary phase diagram Differential scanning calorimetry Thermal gravimetric analysis
658	Thermoanalytical Investigations on the Influence of Storage Time in Water of Resin-Based CAD/CAM Materials Rosentritt, Martin, Schneider-Feyrer, Sibylle, Strasser, Thomas, Koenig, Andreas, Schmohl, Leonie, Schmidt, Alois 02 May 2023 (has links) New resin-based composites and resin-infiltrated ceramics are used to fabricate computer-aided design (CAD) and computer-aided manufacturing (CAM)-based restorations, although little information is available on the long-term performance of these materials. The aim of this investigation was to determine the effects of storage time (24 h, 90 days, 180 days) on the thermophysical properties of resin-based CAD/CAM materials. Thermogravimetric Analysis (TGA), differential scanning calorimetry (DSC) and dynamic mechanical analysis (DMA) were used in the study. TGA provided insight into the composition of the resin-based materials and the influence of internal plasticization and water sorption. Resin-based composites showed different decomposition, heat energy and mechanical behavior, which was influenced by storage time in water. Individual materials such as Grandio bloc showed lower influence of water storage while maintaining good mechanical properties. info:eu-repo/classification/ddc/570 ddc:570
659	Ultrasonic Processing of Aluminum 2139 and 7050 Reed, Jordan Derek 08 1900 (has links) Acoustics is the study of all sound waves, with ultrasound classified as those frequencies above 20,000 Hz. Currently, ultrasound is being used in many industries for a variety of purposes such as ultrasonic imaging, ultrasonic assisted friction stir welding, and ultrasonic spot welding. Despite these uses, the effects of ultrasound on phase stability and resultant mechanical properties has been minimally analyzed. Here we study the impact waves play in ultrasonic welding and design an apparatus to maximize waves entering aluminum alloy samples. Aluminum 2139 and 7050 are used because they are precipitation strengthened by metastable phases so temperature change, and the corresponding phase stability, can greatly impact their strength. Results suggest that the ultrasonic welder primarily imposes a localized temperature spike due to friction, averaging over 200°C in a few seconds, which generally lowers the Vickers hardness due to coarsening or even dissolution of strengthening precipitates. Conversely, the new design increases the Vickers hardness by up to 30% over the initial hardness of approximately 63HV for aluminum 2139 and 83HV for aluminum 7050, respectively, while only increasing the temperature by an average of approximately 10°C. This new design was unable to achieve peak hardness, but the strengthening it achieved in two minutes was equivalent to one month of natural aging. If this system was able to be fine-tuned, it could serve as a quick strengthening process for recently weakened aluminum alloys, such as after friction stir welding. Ultrasonic Aluminum alloys Aluminum 2139 AA2139 Aluminum 7050 AA7050 Precipitation Strengthened Vickers Hardness DSC 20 kHz 20000 Hz ultrasonic spot welder differential scanning calorimetry Aluminum alloys. Ultrasonic welding.
660	THERMAL ANALYSIS AS AN IMPORTANT RESEARCH TOOL FOR COLLEGES AND UNIVERSITIES Fruscella, Jeffrey Allen 15 December 2011 (has links) No description available. Analytical Chemistry thermal analysis thermogravimetry differential scanning calorimetry thermal mechanical analysis education resinkit milk of magnesia aldohexose monosaccharide thermal expansion decomposition glass transition

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