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A novel approach to control the shape change of a reconfigurable wing using shape memory alloyXing, Zhe January 2007 (has links)
Thesis (MTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2007. / Engineers and Technologists have found several approaches to control the
shape of an aerofoil and improve the performance of a wing at different flow
regimes; this research has been done at 2D level. In this work, a novel
approach has been developed. The inspiration for this work comes from
biological research. A 3D wing body has been modeled and flow conditions
around it were simulated by advanced computer technology. The fabrication of
the wing, based on the design optimization model, has been conducted using
rapid prototyping technology. The unique thermal and mechanical properties
that are exhibited by shape memory alloys (SMAs) have presented an exciting
design possibility in the field of aerospace engineering. This kind of smart
material was incorporated in the wing structure and when activated can alter
the shape of the wing, thus effectively increasing the efficiency of a wing in
flight, at several different flow regimes.
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Structural and mechanical properties of insect fibrillar flight muscle in the relaxed and rigor statesWhite, David Clifford Stephen January 1967 (has links)
No description available.
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A study of the role of the wings and their musculature in the flight of Oncopeltus fasciatus (heteroptera)Hewson, Rosemary June January 1969 (has links)
Experiments were conducted to test the relative importance of the two pairs of wing and the flight musculature of Oncopeltus fasciatus. Further, the postembryonic development of this musculature was investigated. It is shown that flight is impossible with only the hind-wings present. The fore-wings are the major propulsive organs, with the hind-wings providing only a part of the lift component. The hind-wings are operated by the mesothoracic musculature acting through a hook mechanism which joins the two pairs of wings together.
The development of the mesothoracic muscles is shown to be in two stages; the first involves the degeneration of the original muscle fibres present in the first instar insect, the second involves the aggregation of myoblasts to form fibres which mature by about the third day after the moult into the adult stage.
Some evolutionary comments are offered on how the developmental processes described in this thesis, compare with those previously described in other insect orders. / Science, Faculty of / Zoology, Department of / Graduate
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An experimental study of a turbulent wing-body junction and wake flowFleming, Jonathan Lee 22 August 2009 (has links)
Extensive hot-wire measurements were conducted in an incompressible turbulent flow around a wing-body junction. The measurements were performed adjacent to the body and up to 11.56 chord lengths downstream of the body. The junction wake flow entered an adverse pressure gradient region approximately 6 chord lengths downstream. This region's geometry approximated the aft portion of an aircraft fuselage or a submersible's hull. The body geometry was formed by joining a 3:2 elliptic nose to a NACA 0020 tail section at their respective maximum thickness locations. The author's measurements were taken with approach flow conditions of Reθ = 6,300, and δ/T = .513, where T is the maximum body thickness.
The results clearly show the characteristic horseshoe vortex flow structure. The vortex flow structure is elliptically shaped, with â (W)/â Y forming the primary component of streamwise vorticity. Near wall measurements show a thin layer of highly concentrated vorticity, underneath and opposite in sign to the primary vortex, which is created by the wall no-slip condition. The development of the flow distortions and associated vorticity distributions are highly dependent on the geometry-induced pressure gradients and resulting flow skewing directions. A quantity known as the "distortion function" was used to separate the distortive effects of the secondary flow from those of the body and the local "2-D" boundary layer. The distortion function revealed that the adverse pressure gradient flow distortions grew primarily because of the increasing boundary layer thickness.
The author's results were compared to several other data sets obtained using the same body shape, enabling the determination of the approach boundary layer effects. The primary secondary flow structure was found to scale on T in the vertical and cross-stream directions, revealing that the juncture flow is driven by the appendage geometry and associated pressure gradients. A parameter known as the momentum deficit factor (MDF = (ReÏ ) 2 (θ/T) was found to correlate the observed trends in mean flow distortion magnitudes and vorticity distribution. Variations in flow skewing were observed to be comparable to changes in MDF, suggesting that this flow parameter changes the effective skewing magnitudes around a wing-body junction. Mean flow distortions were found to increase with decreasing values of MDF.
A numerical study was also performed to gain additional insights into the effects of appendage nose geometry. The velocity distributions around approximately 30 different appendage cross-sections were estimated using 2-D potential flow calculations. A correlation was found between the appendage nose bluntness and the average vortex stretching rate, and also between the invisicid velocity distribution and an experimentally determined non-dimensional circulation estimate. / Master of Science
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A Critical Study of the Substantive Textual Variants in the Three Versions of Henry James's "The Wings of the Dove" Together with a Complete Record of Substantive VariantsVincec, Sister Mary Stephanie 10 1900 (has links)
No abstract provided. / Thesis / Master of Arts (MA) / Scope and contents: The first part of the thesis is an orientation to the novel itself, since the entire work must be taken as the only meaningful context for a consideration of the substantive variants. The second part consists of an examination of the selected revisions in the light of the full context and of James's theory of revision. The third part is a record of substantive variants. The appendices contain a report on computer collation of a section of the text and two extended notes on specific substantive variants.
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Comprehensive Modeling and Control of Flexible Flapping Wing Micro Air VehiclesNogar, Stephen M. 30 December 2015 (has links)
No description available.
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"Successive Windows": Some Aspects of the Composition of Henry James's The Wings of the DoveWalton, Priscilla Lee 10 1900 (has links)
The composition of The Wings of the Dove has received adverse criticism virtually since its first publication in 1902. Relying upon James's, and Percy Lubbock's, contention that the· purpose of a novel's form is to treat its subject, this thesis will argue against ~he prevailing critical·views. The discassion will demonstrate that the subject of The Wings of the Dove is located in Milly Theale's moral influence upon Merton Densher and Kate Croy. The composition of the novel adequately develops and augments this subject. Moreover, this thesis will suggest that The Wings of the Dove provides as good an example of the culmination of James's literary accomplishments as any of the other later novels. His special talents are equally apparent in the techniques he employs to create a structural unity in The Wings of the Dove. / Thesis / Master of Arts (MA)
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Stress and shape analysis of a paraglider wingFralich, Robert W. January 1963 (has links)
The paraglider wing consists of leading-edge booms and a keel boom joined together at the nose and a flexible sail whose surface carries the aerodynamic pressure loading. The payload is suspended beneath the wing by cables which are used to control the wing. Adjusting the length of these cables controls the glide path of the wing by shifting the position of the payload with respect to the wing.
The deflected shape of the sail depends on the pressure distribution over the sail; the pressure distribution in turn depends aerodynamically on the deflected shape of the sail. It is the purpose of this thesis to derive the equilibrium equations for the sail and to integrate these equations to find expressions for the stress resultants in terms of the pressure on the sail and the deflected shape of the sail. By integration of these expressions for stress resultants, along the edges of the sail, the resultant forces applied by the sail to the leading-edge booms and keel boom are found. Then, by considering the streamwise components and the components normal to the stream of the boom forces, the drag and lift forces are obtained. These expressions for the lift and drag forces, and for the boom forces, are given in terms of the boundary value of the stress resultants and can be applied for any aerodynamic theory appropriate to the speed range being considered. When the appropriate aerodynamic relationship, between pressure and deflected shape, is substituted into the boundary, conditions for stress resultant at the trailing edge of the sai1, the criterion for determining the deflected shape is obtained. Once the deflected shape is known all the other quantities can be determined.
In order to show an application of the analysis, the equations were specialized for Newtonian impact theory. This theory yields a simple pressure-deflected relationship. This aerodynamic theory, which has found applications for hypersonic speeds, has been employed since it shows the application of the method in a simple manner. In addition, it has been previously for a rigid idealization of a paraglider wing and thus provides a ready means for comparison. Hence numerical results can be used to test the accuracy of the rigid idealization. These results showed that the deflected shape of the flexible paraglider wing differed considerable from the conical shape of the rigid wing over the complete range of angle of attack. The differences in shape result in different pressure distributions over the surface of the wing and as a result the lift and drag coefficients, and especially the lift-to-drag ratio, for the flexible wing were significantly different from the values for the rigid wing. The boom forces and the distribution of stress resultants over the surface of the sail were obtained. The stress resultants along radial lines were found to be proportional to the distance from the nose of the wing. The calculated stress resultants and boom forces provide a basis for design of sails, booms, shroud lines, and spreader bars for a paraglider for hypersonic flight.
Effects of dihedral angle (raising or lowering of the leading-edge booms relative to the keel) were also considered. The pressure distributions, the lift and drag coefficients, and the ratio to drag were found for several dihedral angles at a given angle of attack. / Ph. D.
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Formulation of a structural model for flutter analysis of low aspect ratio composite aircraft wingsSeitz, Timothy J. 04 May 2006 (has links)
The research contributes toward a fully integrated multidisciplinary wing design synthesis by development of an appropriate structural model. The goal is to bridge the gap between highly idealized structural beam / aerodynamic strip models and the very detailed finite element and computational fluid dynamics, FEM/CFD, techniques. The former provides insufficient accuracy for flutter analysis of modern low aspect ratio composite wings. The latter is too computationally intensive for use in the inner loop of a simultaneous multidisciplinary optimization problem. The derived model provides a useful preliminary design tool as well. / Ph. D.
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A theory and method of predicting the stability derivatives Clᵦ, Clᵣ, Cn𝗉, and CY𝗉 for wings of arbitrary planform in subsonic flowQueijo, M. J. 01 August 2012 (has links)
A theory and method have been developed and design change drawn, for the estimation of certain stability derivatives for wings of arbitrary platform in subsonic flow. / Ph. D.
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