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Showing 91 to 99 of 99 (0.042 seconds)Spelling suggestions: "subject:"lamellar"" "subject:"iamellar""
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Vliv cyklického tepelného zpracování na strukturu slitiny TiAl / Effect cyclic heat treatment on structure of TiAl alloyVraspírová, Eva January 2012 (has links)
The subject of this master thesis is focused to the refining of the cast structure of gamma-TiAl–2Nb alloy using cyclic heat treatment and to the analysis of the grain refining mechanism. Structure evolution after applied cycles of heat treatment was characterized using light, laser and electron microscopy and using microhardness tests. Application of five heat treatment cycles during which two phase transformations (eutectoid and alpha-recrystallization reactions) repeatedly took place resulted in refining of the cast columnar structure having the mean grain size 512 microns to fully lamellar structure containing gamma and alpha2 phases having the mean grain size 229 microns. Lamellae thickness of gamma was not changed while the thickness of alpha2 phase decreased, up to 78 nm. Refining of alpha2 phase resulted in the increase of the microhardness by 20 %. The recrystallized cast structure obtained by cyclic heat treatment and the knowledge on the mechanisms of the refining the structure were compared with the literature data and were discussed in order to propose more efficient procedure for refining thermal treatment of cast TiAl alloys.
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Tribological and Mechanical Behaviour of Lamellar and Compacted Graphite Irons in Engine ApplicationsGhasemi, Rohollah January 2015 (has links)
There has been much discussion about the beneficial uses of lamellar graphite iron in piston rings–cylinder liner systems, where a good combinations of both thermal and tribological properties are essential. The excellent tribological performance of lamellar iron under such sliding conditions is principally associated with lubrication behaviour of the graphite particles which are distributed as lamellas throughout the matrix. During sliding, graphite particles are extruded and smeared onto the counterfaces, act as solid lubricating agents and form a thin graphite film between the sliding surfaces. Although this process especially, during the running-in period significantly changes the sliding wear response of the components, the exact mechanism behind of this phenomenon has rarely been discussed in previous studies. It is tribologically beneficial to keep the graphite open, particularly in applications where the scuffing issues do matter. In this thesis, the main causes involved in closing the graphite lamellas are discussed, with a focus on matrix plastic deformation that occurs during sliding. In first step, the relationship between graphite lamellae orientation and plastic deformation was investigated. To do so, two piston rings, belonging to the same two-stroke marine engine operated for different periods of time, were selected and compared to the unworn sample. The worn piston rings displayed a substantial decrease in both frequency and area fraction of the graphite lamellas. Most of the lamellas were closed as a result of plastic deformation of matrix. This happening was caused mainly by the interaction between abrasive particles and metallic matrix. Additionally, it was found that graphite lamellas parallel or near-parallel to the sliding direction exhibited maximum closing tendency under sliding condition. In next step, to have a better understanding of the graphite film formation mechanism and matrix deformation role in closing the graphite lamellas, microindentation and microscratch testing were performed on typical lamellar iron. The qualitative results showed a similar mechanism involving in graphite contribution to lubricate the sliding surfaces. Moreover, microindentations made nearby the graphite lamellas demonstrated that the deformation of the matrix causes the formation of cracks in the centre of the graphite lamellas, compressing and then extruding the graphite from its natural position, irrespective of the lamellas′ size. Furthermore, it was found that subsurface graphite orientation had a large influence on the extrusion behaviour, in that, for graphite lamellas oriented towards the indenter, the effect was observed more pronounced. Furthermore, an improved fully ferritic solution strengthened compacted graphite iron was produced for future wear studies. The effects of different Si levels and section thicknesses on tensile properties and hardness were investigated as well. The influence of Si content and section thickness on mechanical properties was revealed by improving the materials strength and slightly enhancing the hardness through increasing Si content. Besides, Si addition up to 4.5 wt% significantly affected the strength and elongation to failure of cast samples. / Helios / FFI
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| 93 |
Microstructural elucidation of self-emulsifying system: effect of chemical structurePatil, S.S., Venugopal, E., Bhat, S., Mahadik, K.R., Paradkar, Anant R January 2012 (has links)
No / PURPOSE: Self-emulsifying systems (SES) emulsify spontaneously to produce fine oil-in-water emulsion when introduced into aqueous phase. The self-emulsification process plays an important role during formation of emulsion. The objective of current work was to understand and explore the inner structuration of SES through controlled hydration and further to study the influence of additive on the same which ultimately governs performance of final formulation in terms of droplet size. METHODS: Droplet size of final formulations containing structural analogues of ibuprofen was determined. Microstructural properties of intermediate hydrated regimes of SES were investigated using techniques such as small angle X-ray scattering, differential scanning calorimetry and rheology. RESULTS: The current work established inverse relationship between droplet size of the formulations containing structural analogues of ibuprofen and their Log P values. Microstructural analysis of intermediate hydrated regimes of the prepared samples showed formation of local lamellar structure. Structural analogues of ibuprofen significantly altered microstructure of lamellae which was well correlated with the droplet size of final formulations. In vitro drug release study showed increase in dissolution rate of lipophillic drugs when formulated as SES. CONCLUSION: The current work emphasizes the fact that tailor-made formulations can be prepared by controlling the properties of intermediate regimes.
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Multimodal structural, compositional, and mechanical characterization of cortical bone on the micron scaleSchrof, Susanne 31 July 2017 (has links)
Schlüsselfaktoren der bemerkenswerten mechanischen Eigenschaften von Knochen sind seine
komplexe hierarchische Struktur und chemische Zusammensetzung. Ziel dieser Dissertation war die simultane Untersuchung von Materialkomposition und 3D Struktur in Relation zu lokalen elastischen Eigenschaften von Knochengewebe unter Verwendung von neuen hochauflösenden experimentellen Konzepten. Im ersten Teil wurde polarisierte Raman Spektroskopie (PRS) eingesetzt um gesunden humanen kortikalen Knochen zu analysieren. Es konnte gezeigt werden, dass sich PRS eignet, um sowohl die chemische Zusammensetzung als auch die 3D Organisation der Kollagenfasern in einer Messung aufzuklären. Dominante Faserorientierungen ganzer Gewebedomänen konnten identifiziert
und mit der Koexistenz zweier Faserorganisationsmuster verknüpft werden. Durch Kombination derPRS Experimente mit ko-lokalisierten Synchrotron-Phasenkontrast-Nano-Tomografie- undUltraschallmikroskopie-Messungen wurde eine komplementäre Untersuchung von Faserarchitektur, chemischer Komposition und elastischen Eigenschaften einzelner Knochenlamellen ermöglicht. Die multimodale Analyse ergab, dass die charakteristischen lamellären Ondulationen der Elastizität in erster Linie durch sich lokal ändernde Faserorientierungen bedingt werden und nicht durch Variationen der Materialzusammensetzung, Abweichungen der Mineralkristallpartikeleigenschaften
oder durch Fluktuationen der Massendichte. Im letzten Teil wurde mittels akustischer Mikroskopie der Einfluss der Mutation des Neurofibromin 1 Genes auf die pathologische Entwicklung von mechanischen Knocheneigenschaften untersucht. Anhand zweier Knockout-Mausmodelle wurde festgestellt, dass nur eine Mutation in frühen mesenchymalen Vorläuferzellen die Steifigkeit der langen Röhrenknochen signifikant beeinträchtigt. Perspektivisch eignet sich der vorgestellte multimodale Ansatz für nicht-destruktive Charakterisierung eines breiten Spektrums biologischer und synthetischer Faserverbundwerkstoffe. / Key factors determining the remarkable mechanical performance of bone are its material composition and complex hierarchically structure. The aim of this thesis was the concurrent investigation of the chemical composition and 3D structure of bone tissue in relation to the local elastic properties by introducing novel high resolution experimental approaches. In the first part, polarized Raman spectroscopy (PRS) was applied to analyze healthy human cortical bone. In particular, it was demonstrated that PRS can be employed to simultaneously investigate the chemical composition and the 3D organization of collagen fibrils in a single experiment. Predominant fibril orientations in entire tissue domains were identified and linked to the coexistence of two fibril organization patterns. To further extend the analysis, PRS experiments were combined with synchrotron X-ray phase contrast nano tomography and scanning acoustic microscopy measurements in a site-matched study design. This multimodal approach enabled complementary imaging of the fibrillar architecture, tissue composition and resulting elastic properties of single bone lamellae. In line with earlier studies, crosscorrelation analysis strongly suggested that the characteristic elastic undulations of bone lamellae are the result of the twisting fibrillar orientation, rather than compositional variations, modulations of the mineral particle maturity, or mass density fluctuations. Finally, acoustic microscopy was applied to analyze the impact of the neurofibromin 1 gene mutation on the pathologic development of the mechanical properties of bone. Analysis of two knock-out mouse models revealed that only Nf1 ablation in early mesenchymal progenitor cells significantly impairs the elastic stiffness of long bones. In future studies, the presented multimodal methodology can be translated for non-destructive and high resolution characterization of a broad range of biological and synthetic fiber composite materials.
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Artificial biomineralisation and metallic soapsCorkery, Robert, robert.corkery@anu.edu.au January 1998 (has links)
In this thesis, geometry is used as a basis for conducting experiments aimed at growing
and arranging inorganic minerals on curved interfaces. Mineralisation is directed using
crystalline and liquid-crystalline metallic soaps and surfactant/water systems as
templates.¶
A review of the history, syntheses, structure and liquid crystallinity of metallic soaps
and other amphiphiles is presented as a foundation to understanding the interfacial
architectures in mesostructured template systems in general.¶
In this study, a range of metallic soaps of varying chain length and cation type are
synthesised and characterised to find potentially useful templates for mineral growth.
These include alkaline-earth, transition metal, heavy metal and lanthanide soaps. These
are systematically characterised using a variety of analytical techniques, including
chemical analyses, x-ray diffraction (XRD) infrared spectroscopy (IR) and differential
scanning calorimetry (DSC). Their molecular and crystal structures are studied using
transmission electron microscopy (TEM), cryo-TEM, electron diffraction (ED), electron
paramagnetic spin resonance (EPR), absorption spectroscopy (UV-VIS), high resolution
laser spectroscopy, atomic force microscopy (AFM), nuclear magnetic resonance
spectroscopy, scanning electron microscopy (SEM), electron dispersive x-ray analysis
(EDXA), thermal gravimetric analysis (TGA) and magnetic measurements. Models for
the molecular and crystal structures of metallic soaps are proposed. The soaps are
predominantly lamellar crystalline or liquid crystalline lamellar rotor phases with tilted
and/or untilted molecular constituents. These display evidence of varying degrees of
headgroup organisation, including superstructuring and polymerisation. A single crystal
structure is presented for a complex of pyridine with cobalt soap. Simple models for
their structure are discussed in terms of their swelling properties in water and oils.
Experiments are also presented to demonstrate the sorbent properties of aluminium
soaps on oil spills.¶
The thermotropic liquid crystallinity of alkaline earth, transition metal, heavy metal and
lanthanide soaps is investigated in detail. This is done to assess their suitability as
templates, and to document their novel thermotropic behaviour, particularly the
relatively unknown lanthanide soaps. Liquid crystalline behaviours are studied using
high-temperature XRD (HTXRD), hot-stage optical microscopy and DSC. Models for a
liquid crystalline phase progression from crystals to anisotropic liquids are discussed in
terms of theories of self-assembly and interfacial curvature. The terminology required
for this is drawn from various nomenclature systems for amphiphilic crystals and liquid
crystals. General agreement with previous studies is reported for known soaps, while
liquid crystallinity is demonstrated in the lanthanide and some non-lanthanide soaps for
the first time. A general phase progression of crystalline lamellar through liquid
crystalline lamellar to non-lamellar liquid crystalline is discussed in terms of models
concerned with the molecular and crystal structures of the soaps and their phase
transitions via headgroup and chain re-arrangements.¶
Experiments aimed at guiding growth of metal sulfides using metallic soaps as
templates are described, and a model for this growth is discussed. Metal sulfides have
been successfully grown by reacting crystalline and liquid crystalline transition metal
and heavy metal soaps with H2S gas at room temperature and at elevated temperature.
These have been characterised using XRD, TEM, ED and IR. Sulfide growth is
demonstrated to be restricted and guided by the reacting soap template architecture.
Zinc, cadmium, indium and lead soaps formed confined nanoparticles within the matrix
of their reacting soap template. In contrast, curved and flat sheet-like structures, some
resembling sponges were found in the products of sulfided iron, cobalt, nickel, copper,
tin and bismuth soaps. A model to explain this behaviour is developed in terms of the
crystal and liquid crystal structures of the soaps and the crystal structures of the metal
sulfide particles.¶
Liquid crystalline iron soaps have been subjected to controlled thermal degradation
yielding magnetic iron oxide nanoparticles. Some XRD and TEM evidence has been
found for formation of magnetic mesostructures in heat-treated iron soaps. Models for
the molecular and liquid crystalline structure of iron soaps, their thermotropic phase
progression and eventual conversion to these magnetic products are discussed.
Systematic syntheses of mesoporous silicates from sheeted clays are discussed.¶The
templates that have been used are cationic surfactants and small, organic molecular
salts. Experiments are reported where a cooperative self-assembly of
surfactant/water/kanemite plus or minus salt and oils yields 'folded sheet materials'
(FSM'S). Templating of kanemite has also been achieved using cobalt cage surfactants.
A theoretical prediction of the specific surface areas and specific volumes of
homologous sets of FSM's gave excellent agreement with measured values. The
geometry and topology of the mesostructures are discussed. A theoretical model is also
discussed regarding the curvature found in the sheets of natural clays , and results of
templating clays and silica using metallic soaps are presented. Experiments and a model for low temperature nucleation and growth of microporous silicalite-1 are described in
terms of silica templating by water clathrates.¶
Finally, the problem of finding minimal surface descriptions of crystal networks is
addressed. Combinatoric methods are used to disprove the existence of possible
embeddings of type I and II clathrate networks in non-self intersecting periodic minimal
surfaces. The crystal network of the clathrate silicate, melanophlogite is successfully
embedded in the WI-10 self-intersecting surface. Details of a previously unreported,
genus-25 periodic surface with symmetry Im3m are discussed.
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| 96 |
"Hudební scéna" - koncertní sál pro město Brno / "Music Scene" - a concert hall for the city of BrnoZatloukalová, Veronika January 2015 (has links)
The subject of this thesis is the design concept of the architectural study of a concert hall, namely the proposal for a "MUSIC SCENE" - the concert hall for the city of Brno. As part of this study is therefore designed a hall for 591 visitors. Hall enables performances to 90-member orchestra or choir. The solution is also operating and maintenance facilities necessary facilities like auditorium. The main emphasis was put on the acoustic solution, then the overall transparency in the operation of the building and the continuity of the building and the surrounding development mainly to the existing communication system that tries to respect.
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Římské lázně a saunový svět / Roman spa and sauna worldOlšáková, Pavla January 2014 (has links)
The specified location for the design is located in the street Hády near the former quarries -Hády and Růženin lom. The place is surrounded by suburban recreational greenery and has sufficient accessibility. On a dedicated site is considered new and existing applications. The new use of the buildings includes a water park and Roman bath and the sauna world. The building of the Roman bath and sauna world will contain, in addition to the main operations also ancillary services and hydrotherapy treatments. The object is oriented at the southern edge of the land between the parking lot and the building of the Aqua Park. The object is designed as a three-storey with basement (1S), 1st floor (1NP) and 2nd floor (2NP). Mass solution is the arc plan. The input section is designed as a contiguous solid mass. The rear part is then designed as two separate halls. From the perspective of the construction is a reinforced concrete skeleton. Surface materials are plaster with metallic paint, glass and wood.
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INFLUENCE OF CARBON CONTENT AND COOLING CONDITIONS ON THE THERMAL CONDUCTIVITY AND TENSILE STRENGTH OF HIGH SILICON LAMELLAR GRAPHITE IRONRam, Gokul, Harikrishnan, Vishnu January 2020 (has links)
Much study has been carried out to determine the properties of Lamellar Graphite Iron (LGI) or grey iron and their relations to factors such as the cooling rate, the dendrite morphology, the pouring temperature, and so on. However, there hasn’t been much comprehensive study on the properties of LGI outside the generally used and accepted composition, with 1 to 3% Silicon. The scope of this study is to measure and evaluate the thermal conductivity and tensile strength of LGI, for a higher concentration of Si and different carbon contents. The concentration of Si aimed for was 4% but the concentration obtained after spectroscopy was between 4.1% to 4.15%. There are two hypereutectic, one near-eutectic and three hypoeutectic samples considered and these six chemical compositions were cast under different cooling conditions . The cooling time has been varied by providing different molds of 30mm, 55mm, and 80mm diameter cylinders respectively, for all the six sample compositions. The microstructure analysis carried out studies the segregation of Si, the graphite morphology, primary austenite morphology. These factors are then compared to the thermal and tensile behavior measured in this study. It can be observed that the thermal conductivity studied in the present work has a direct correlation for a higher Si content and tends to be greater than the thermal conductivity values observed from other studies with lower content Of Si. However, the conductivity shows an inverse relation with the cooling rate and is maximum for the samples with the lowest cooling rate. The tensile strength, on the other hand, seems to have a lower value than that observed in previous studies for LGI with 1 to 3% Si, but shows a direct correlation with the cooling rate. The mean area fraction of dendrites obtained and the mean interdendritic hydraulic diameter is also measured and their influence on the properties are also studied. The addition of more Si has greatly favored the thermal behavior positively but has also reduced the tensile strength.
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SHEAR RHEOMETRY PROTOCOLS TO ADVANCE THE DEVELOPMENT OF MICROSTRUCTURED FLUIDSEduard Andres Caicedo Casso (6620462) 15 May 2019 (has links)
<p></p><p>This doctoral dissertation takes the reader through a
journey where applied shear rheology and flow-velocimetry are used to
understand the mesoscopic factors that control the flow behavior of three
microstructured fluids. Three individual protocols that measure relative
physical and mechanical properties of the flow are developed. Each protocol
aims to advance the particular transformation of novel soft materials into a
commercial product converging in the demonstration of the real the chemical,
physical and thermodynamical factors that could potentially drive their
successful transformation. </p>
<p> </p>
<p>First, this dissertation introduces the use of rotational
and oscillatory shear rheometry to quantify the solvent evaporation effect on
the flow behavior of polymer solutions used to fabricate isoporous asymmetric
membranes. Three different A-B-C triblock copolymer were evaluated:
polyisoprene-<i>b</i>-polystyrene-<i>b</i>-poly(4-vinylpyridine) (ISV);
polyisoprene-<i>b</i>-polystyrene-<i>b</i>-poly(<i>N</i>,<i>N</i>-dimethylacrylamide)
(ISD); and polyisoprene-<i>b</i>-polystyrene-<i>b</i>-poly(<i>tert</i>-butyl methacrylate) (ISB). The resulting evaporation-induced
microstructure showed a solution viscosity and film viscoelasticity strongly
dependent on the chemical structure of the triblock copolymer molecules. </p>
<p> </p>
<p>Furthermore, basic shear rheometry, flow birefringence, and
advanced flow-velocimetry are used to deconvolute the flow-microstructure relationships
of concentrated surfactant solutions. Sodium laureth sulfate in water (SLE<sub>1</sub>S)
was used to replicate spherical, worm-like, and hexagonally packed micelles and
lamellar structures. Interesting findings demonstrated that regular features of
flow curves, such as power-law shear thinning behavior, resulted from a wide
variety of experimental artifacts that appeared when measuring microstructured
fluids with shear rheometry.</p>
<p> </p>
<p>Finally, the successful integration of shear rheometry to
calculate essential parameters to be used in a cost-effective visualization
technique (still in development) used to calculate the dissolution time of
polymers is addressed. The use of oscillatory rheometry successfully quantify
the viscoelastic response of polyvinyl alcohol (PVA) solutions and identify
formulations changes such as additive addition. The flow behavior of PVA
solutions was correlated to dissolution behavior proving that the developed
protocol has a high potential as a first screening tool.</p><br><p></p>
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