Mechanical Engineering & Applied Mechanics Masters Papers
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Browsing Mechanical Engineering & Applied Mechanics Masters Papers by browse.metadata.program "Mechanical Engineering"
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Item Cavitation Inception and Contaminant Effects(North Dakota State University, 2014) Jordahl, Jennifer MarieWithin a liquid, it is possible to lower the pressure to a point in which the nuclei gas bubbles will cause cavitation inception. During this drop in pressure, at constant temperature, the bubble tension will increase to the inception pressure. The difference between vapor pressure and the pressure where inception occurs is the tensile strength of the liquid. Frankel introduced the calculation of the potential tensile strength of a liquid. Studies show a drastic difference in the calculated potential tensile strength of a liquid and the tensile strength obtained through experimentation. Environmental effects or contaminants affect cavitation inception. Studying the mechanics of a bubble will help one to predict if inception, and later cavitation, may occur and to what extent.Item Device Design for In-Situ EIS Measurements of Organic Coatings Under Accelerated Degradation Via Impingement Flow(North Dakota State University, 2020) Yuan, QuanThis paper demonstrated a holistic approach to the study of corrosion degradation mechanism of organic coatings using impingement flows. A state-of-the-art impingement flow testing device was developed for the experimental investigations of coating degradation behavior under various fluid flow conditions. The testing device employed Electrochemical Impedance Spectroscopy (EIS) to monitor and quantify the coating performance. This study prepares us for a pathway to investigate the degradation mechanism of coatings using both mechanistic and electrochemical approaches. This paper provided a limited amount of experimental data to show the capability of the current experimental setup. A pigmented marine coating was tested under a 90-degree jet impingement flow of a looped 3.5% wt. NaCl solution. The measured impedance results indicated that the coating barrier property decreased for all tested flow rates. It was also found impingement flow can accelerate the coating degradation process comparing with the standard stationary immersion tests.Item Literature Review of the Aerodynamics of Flapping Flight in Micro Air Vehicle Applications(North Dakota State University, 2014) Morman, JoshuaBiological flapping wing flyers achieve flight maneuverability and efficiency in low speed flight environments that has not been replicated by man-made flyers. Micro Air Vehicle (MAV) design goals are to develop flyers that maintain flight in environments that biological flyers excel in which includes low speeds, hovering, and urban settings. This flight is characterized by flow phenomena that are not well understood such as: flow separation and vortical flow. The goal of this study is to perform a literature review about the aerodynamics of flapping flight and discuss the application to MAV design. The study will evaluate the design initiatives of MAV. Experimental and computational test methods are reviewed. Low Reynolds number aerodynamics are studied. The effects of airfoil aeroelasticity and geometry are discussed. Then, the application of the aerodynamics to flapping motions are reviewed. Finally, operational MAV designs are studied and recommendations are made to further advance the state of the art.Item Micromechanical Characterization of Brain White Matter with Bi-Directional Orientation of Axonal Fibers(North Dakota State University, 2015) Shankar, SauravAxonal injury within the white matter of human brain and spinal cord has led to several diseases in the Central Nervous System (Karami and Shankar, [1]). Diffuse axonal injury, one of the forms of Traumatic Brain Injury is caused due to swelling and elongation of axons in case of explosions, small and severe accidents, falling from heights where the brain gets an impact due to sudden movement of skull or hit by an object. A brain tissue model with bidirectional orientation of axonal fibers within the white matter of human brain has been developed. This brain tissue represents a repeating unit cell (RUC) modeled in ABAQUS (finite element software) [2] which comprises of axons and extracellular matrix (Karami and Shankar, [1]). Hyperelastic material properties of white matter sheet corona radiata of a porcine brain with bidirectional orientation of axonal fibers within the extracellular matrix is considered (Karami and Shankar, [1]).Item Simulation of a Sudden Expansion Using Axis Symmetric Modeling for Newtonian Blood Flow(North Dakota State University, 2014) Schmit, ChristopherThis paper examines the flow of a Newtonian modeled blood through axisymmetric sudden expansion geometry. Reynolds number of 500, 2000, 3500, 5000, and 6500 are examined using laminar, shear stress transport, and base line analysis solvers using ANSYS 14.0. Simulation data sets are then examined against experimental data sets provided by the FDA. Results of the solution sets indicate that the laminar case set (Re = 500) is well predicted by the laminar solution set, while the fully turbulent flow (Re = 6500) is well predicted by the shear stress transport solver. Simulation and comparison of transitional cases lead to moderate discrepancies from the experimental data.Item Survey of Methods for Achieving Low Gasoline Fuel-Permeation in Rotationally-Molded Articles(North Dakota State University, 2018) Nerenz, BrentThe establishment of governmental regulations on the evaporative emission performance of fuel system components has caused molders and their material suppliers to develop innovative materials and processes by which to meet such requirements. Rotational molding is a common processing choice for fuel containers given its ability to produce complex, hollow geometries with consistent wall thickness. A number of strategies have been devised for meeting fuel permeation requirements in rotationally molded containers, each demonstrating significant benefits and detriments to the processor. Single, homogeneous materials have difficulty in simultaneously providing adequate fuel permeation, durability, and affordability. The ability of rotational molding to create containers having a plied, multi-polymer architecture allows molders to create articles which exhibit exceptional performance in each aspect. Multi-layer processing creates unique challenges for the rotational molder; however, different technologies have been demonstrated which enable multi-layer articles to be produced from a single material introduction, thereby maximizing processing efficiency.