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Ermittlung des Zusammenhangs zwischen theoretischem und realem Späneflug - Teil 1Dressler, Martin. January 1996 (has links)
Stuttgart, Univ., Studienarb., 1996.
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Staubausbreitungsuntersuchung in einer Messkabine nach DIN 33891Stahl, Markus. January 2000 (has links)
Stuttgart, Univ., Diplomarb., 2000.
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Verfahren zur Bestimmung der Reinraumtauglichkeit von WerkstoffpaarungenGommel, Udo. January 2006 (has links)
Zugl.: Stuttgart, Univ., Diss., 2006. / Druckausg. bei Jost-Jetter, Heimsheim erschienen.
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Argument and rhetoric : adverbial connectors in the history of English /Lenker, Ursula. January 2010 (has links)
Zugl. München, University, Habil.-Schr., 2007.
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Particle swarm optimization for scheduling problemsCzogalla, Jens January 2010 (has links)
Zugl.: Hamburg, Helmut-Schmidt-Univ., Diss., 2010
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Das erweiterte AppositivFreienstein, Jan Claas January 2008 (has links)
Zugl.: Münster (Westfalen), Univ., Diss.
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Translatorische Dimensionen von Konnektorensequenzen im Spanischen und Französischen ein Beitrag zur linguistisch orientierten Übersetzungswissenschaft Romanisch-DeutschSchröpf, Ramona January 2009 (has links)
Zugl.: Saarbrücken, Univ., Diss., 2009
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Nizozemské modální částice a jejich ekvivalenty v překladech do češtiny a slovenštiny / Dutch modal particles and their equivalents in Czech and Slovak translationKmeťová, Anna January 2013 (has links)
The aim of this thesis is to examine the current Dutch modal particles and ascertain if this word class is fully translatable into Czech and Slovak language. The first, theoretical part of this thesis focuses primarily on the Dutch modal particles as such; explains what is modality, classifies particles as a word class, describes the characteristics of modal particles, which specific words are considered as modal particles, what kinds of modal particles exist in the Dutch language and what are their attributes both from a pragmatic and syntactic perspective. The theoretical part explains in detail the ways in which modality is expressed in Czech and Slovak, what kinds of particles in these two languages exist, and if there exist modal particles, which words are considered as these. In the conclusion of the theoretical part of the thesis is summarized what do have these three languages in common in this area, whether by the term modal particles is understood the same word class in each of these languages and whether it appears that the Dutch modal particles do have in Czech and Slovak their exact equivalents and are therefore fully translatable into these two languages. This claim will be verified in the practical part of the thesis. In the second, practical part of the thesis are the Dutch modal...
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Feinstaubexposition im urbanen Hintergrundaerosol des Rhein-Main-Gebietes Ergebnisse aus Einzelpartikelanalysen /Vester, Barbara P. Unknown Date (has links)
Techn. Universiẗat, Diss., 2006--Darmstadt.
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Role of thermo-osmotic flows at low Reynolds numbers for particle driving and collective motionBregulla, Andreas Paul 11 July 2016 (has links) (PDF)
The main subject of this thesis is to examine thermo-osmotic flows, which occur on interfaces of non-uniform temperature. Such thermo-osmotic flows are purely non-thermal equilibrium phenomena. Along the non-isothermal interface, specific interaction of a liquid and its solutes with a boundary vary in strength across the interface, according to the local temperature. This boundary can be a solid, a membrane or a phase boundary. The flow is thereby continuously pumping fluid across the interface in direction of the local temperature gradient, resulting in an extended flow pattern in the bulk due to mass conservation. In a system containing particles and heat sources in a liquid under spatial confinement, the thermo-osmotic flow may drive particles in a directed manner, or can lead to collective phenomena. To approach this broad topic of (self-)thermophoresis and collective motion of active particles and quantify the role of the thermo-osmotic flow upon the latter effects, different experiments have been performed:
The first experiments aim to quantify the thermo-osmotic flow at a non-isothermal liquid/solid interface for two fundamentally different substrate properties. Further, the bulk flow was investigated for two different systems. The form and spatial extension of this bulk flow pattern depends sensitively on the form of the container and the interface, as well as on the thermo-osmotic flow. The first system is a liquid film confined between two planar glass cover slips. The second case is a Janus particle immobilized on one of the glass slips. In the first case, the non-uniform temperature profile is generated by optical heating of a nanometer sized gold colloid, and in the second case, the heat source is the Janus particle. The bulk flow pattern consists, for the second case, of the flow pattern created by the glass cover slips and the one created by the Janus particle.
The following experiments are focusing on the dynamics of mobile self-thermophoretic Janus particles. In particular, their dynamics and the contributions of the thermo-osmotic flow to the interaction of multiple active particles are investigated. To investigate those particles under controlled conditions and examine their interactions at low concentrations for an effectively unlimited amount of time, a real-time feedback algorithm was co-developed to gain control of the motion of multiple active particles simultaneously, called ”photon nudging”. With the help of this method, first experiments have been performed to quantify the dynamics of a Janus particle located close to a heat source.
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