Global ETD Search

91	Use of fracture mechanics parameters to characterize comminution Hao, Bin 16 February 2010 (has links) This report is to investigate the use of fracture mechanics parameters (fracture toughness, specific work of fracture) to characterize comminution process. Comminution is a very important industrial process and is extremely low in efficiency. Establishment of a crushing index based on fracture mechanics principles is of great significance for improved machine design and enhanced efficiency. Single particle fracture study has been reviewed because it is considered the most elementary process in and provides the basis for comminution. <p>Rock fragmentation can be best described by fracture mechanics principles and concepts. The most fundamental concept in fracture mechanics is fracture toughness. Extensive review has been done on the fracture toughness application to rock fragmentation problems, and has found it has not been successfully used in comminution process. Further study is necessary to investigate the link between comminution and fracture toughens. Interrelation of fracture. toughness with other rock properties has been studied. Loading rate effects on fracture toughness has also been reviewed. <p>Fracture toughness testing for rock materials has also been studied. The SCB (Semi-Circular Bend specimen) method has been selected for its sound analytical background and ease of operation. A experimental proposal is made based upon the survey results. Single particle fracture is proposed to be conducted on the Allis-Chalmers High Energy Crush Test System, which, compared with other test apparatus, more closely simulates the actual crushers. Detailed procedures on how to use the test system has been given in the report. / Master of Science rock fragmentation fractures LD5655.V851 1996.H36
92	Assessment of land cover change due to shale gas development in Harrison County, Ohio Paudyal, Pramila 29 August 2019 (has links) No description available. Geography
93	A multiscale continuum fragmentation model motivated by lower length scale simulations Huddleston, Bradley 13 December 2019 (has links) A multiscale continuum model for fragmentation in ductile metals was developed, motivated by structure-property relationships obtained from lower length scale and numerical simulations. Fragmentation occurs during high strain rate deformation as the result of widespread internal damage in the form of void or crack nucleation, growth, and coalescence. The connection between internal damage structures and fragmentation was determined through Molecular Dynamics (MD) simulations of high rate deformation in copper, iron, and iron-carbon alloys. The fragmentation metric of interest in this study is the fragment size, which is represented in MD simulations by the fragment length scale, or the solid volume per surface area ratio. Three deformation modes of varying stress triaxialities, plane strain tension, equibiaxial expansion, and isotropic expansion, provide a range of damage growth behavior allowing the fragment length scale to be correlated to damage structures under different conditions. Modified Embedded Atom Method (MEAM) potentials for the materials enable the representation of damage (and newly created free surfaces) under the extreme conditions. Continuum, nonhomogeneous percolation simulations establish a criterion for fragmentation based on internal damage structure. The continuum percolation simulations are motivated by void size and shape information taken from experimental fracture surfaces of an aluminum 7085 alloy. The combination of the percolation based fragmentation criterion and MD motivated fragmentation model yields a framework for the multiscale modeling of fragmentation. Molecular Dynamics Fragmentation Percolation Damage Mechanics
94	Mass Spectrometry-based Fragmentation Chemistry of Small Biological Compounds Guan, Shanshan 05 August 2021 (has links) No description available. Chemistry Mass Spectrometry Fragmentation Chemistry Compounds
95	Évaluation d'une nouvelle source de post-ionisation en spectrométrie de masse Sauvageau, Benoit January 2002 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. Bombardement par atomes métastables Désorption-ionisation Fragmentation
96	Forest fragmentation and urbanization effects on belowground biogeochemistry Garvey, Sarah Marie 23 March 2024 (has links) Forest fragmentation is a ubiquitous consequence of anthropogenic land-use change, yet its effects on ecosystem processes and biogenic carbon (C) cycling remain unclear, especially belowground. Forest edges, or the boundary of forest and non-forest land cover, experience altered environmental conditions that affect soil biogeochemical cycling and microbial communities. Urbanization can further alter forest soil dynamics and may interact with perturbations at the forest edge in complex, nonlinear ways. Though soils comprise over 40 % of the global forest C sink, the net effects of interacting global change drivers (e.g., rising temperatures, fragmentation, urbanization) are largely unknown, introducing large uncertainties into estimates of soil C fluxes and our understanding of soil ecology. I co-designed and implemented an observational field campaign of forest edges along an urbanization gradient in Massachusetts to characterize soil C cycling and its drivers from the forest edge to the interior. I use field measurements of soil temperature, moisture and C efflux as CO2, or soil respiration, to find diverging trends in soil C losses at urban and rural forest edges. I find that urban soil respiration rates are less sensitive to rising temperatures than rural soils and that urban edges are even less sensitive than their interior counterparts. I then perform a holistic characterization of soil properties and microbial activity to explore the effects of multiple, simultaneous environmental perturbations on forest edge soils. I report that soil C content does not reflect diverging trends in soil C efflux between rural and urban sites and, instead, is generally lower at the forest edge, suggesting a decoupling between edge soil C pools and fluxes. I also report that soil properties often mediated by human activity, such as pH, temperature, and trace element concentrations, broadly predict soil C dynamics from edge to interior across the urbanization gradient. Finally, I conduct a meta-analysis of published studies on forest edge soil C cycling and its drivers and interpret the findings through a lens of broader global change. I demonstrate that soil conditions converge at the forest edge across the globe, where soils are hotter, drier, and less acidic than the forest interior. I find limited investigation of soil C fluxes and substantial variability in edge soil C stocks, and I conclude that forest edges are not direct analogs for global change experiments. My dissertation demonstrates that soil C cycling is significantly altered by both forest fragmentation and urbanization. I highlight the need for further study both in situ at the forest edge and through multi-factor manipulation experiments to improve our understanding of an increasingly fragmented and urbanized forest landscape. Biogeochemistry Carbon Forest fragmentation Soil Urbanization
97	The Mass Spectra of Some Monocyclic, Bicyclic, and Tricyclic Sulfur and Selenium Compounds Kempling, Shelley Patricia 11 1900 (has links) <p> The mass spectra of disubstituted 1,4-dithiane, 1,4-oxathiane, and 1,4-oxaselenane, as well as the mass spectra of some disubstituted bicyclic and tricyclic sulfur and selenium compounds, were studied. The exact composition of the major ions of many of these compounds was determined. Fragmentation mechanisms are proposed to account for the major peaks in their spectra.</p> / Thesis / Master of Science (MSc)
98	Modèles modulaires pour la simulation phénoménologique de circuits de broyage de minerais : mise en équations, calibrage des paramètres et étude de cas pour la commande Légaré, Benjamin 24 February 2021 (has links) Face à la croissance du coût de l’énergie, la complexification des gisements, et une pression sociétale accrue pour réduire l’empreinte environnementale des activités industrielles, l’industrie minière est confrontée à un défi de taille. Les usines minéralurgiques comptent pour une portion significative de la consommation énergétique des sites miniers alors que les circuits de broyage affichent une efficacité énergétique sous la barre des 30 %.L’amélioration de l’efficacité énergétique de l’étape de fragmentation apparait comme une avenue logique afin de diminuer l’empreinte énergétique des usines minéralurgiques. Cette recherche vise à démontrer que l’amélioration de la performance énergétique des circuits de comminution est possible en définissant une stratégie d’opération adaptée qui utilise de la régulation avancée. Afin de résoudre la problématique, plusieurs échantillonnages de la réponse dynamique du circuit de broyage de la mine Niobec ont été effectués. La programmation et le calibrage d’un simulateur dynamique permettant de suivre la distribution granulométrique de chacun des flux du circuit de broyage de la mine ont été complétés par la suite. Ce simulateur a permis l’étude des performances du circuit dans différentes conditions d’opération incluant l’intégration de perturbations dans le comportement du minerai. Une stratégie de régulation avancée visant à maximiser la charge circulante du circuit a été développée en utilisant des contrôleurs PID. La maximisation de la charge circulante va de pair avec une amélioration de la classification dans le circuit et une diminution du surbroyage ce qui entraîne une amélioration de l’efficacité énergétique. En comparaison à la stratégie de contrôle actuelle, celle proposée permet d’augmenter le tonnage traité et de diminuer la consommation énergétique par tonne traitée. Les simulations montrent qu’une réduction de 8,29 à 6,92 kWh par tonne traitée est envisageable. Cette amélioration de l’empreinte énergétique se fait de concert avec une augmentation de 155 à 184 tonnes traitées par heure tout en maintenant la cible de dimension du produit de broyage. La robustesse de la stratégie de régulation proposée est démontrée par l’étude de sa réponse à une variation de la dureté du minerai traité. Ces résultats montrent qu’il est possible d’accroitre significativement les performances en utilisant des stratégies de régulation avancée à la portée des systèmes de contrôle les plus communément utilisés. Ils indiquent aussi que l’augmentation de l’efficacité de la classification est un aspect important de l’amélioration des performances énergétiques. Fragmentation. Minerais.
99	THE CONSERVATION VALUE OF A HEDGEROW FOR BIRDS IN AN AGRICULTURAL LANDSCAPE IN SOUTHWEST OHIO Richards, Julie Whipkey 24 April 2002 (has links) No description available. birds hedgerows agricultural landscapes fragmentation corridor
100	Communicating Contradictory Selves: A Critical Postmodern Perspective on Identity Formation Borchers, Tyler 16 May 2014 (has links) No description available. Communication Political Science identity fragmentation identity contradiction

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