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Dramaturgia do ator : vivências, experiências e construção de sentido a partir de diferentes materiais / Actor's dramaturgy : living, experiences and construction of meaning from different materialsMonzon, Ana Carolina Borges, 1984- 27 August 2018 (has links)
Orientador: Matteo Bonfitto Junior / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Artes / Made available in DSpace on 2018-08-27T17:01:22Z (GMT). No. of bitstreams: 1
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Previous issue date: 2015 / Resumo: Esta pesquisa visa questionar, observar e analisar o contexto da dramaturgia do ator vivenciado no teatro brasileiro contemporâneo. Possui, portanto, o intuito de esmiuçar processos de criação de uma dramaturgia coletiva, ou seja, de uma dramaturgia em que o ator participa ativamente do processo criativo e, muitas vezes, obtém a voz de um autor, criador ou compositor, cujo processo de composição de partituras e subpartituras é vivenciado e experimentado pelo corpo desse ator-performer. Além disso, procura-se refletir sobre a questão da autonomia do ator sobre o processo criador, escolhendo como foco três bases: a escolha dos materiais, o processo criador e registro dramatúrgico e a dramaturgia do ator. Cabe ressaltar que as três bases possuem, nesta pesquisa, caráter inacabado e em constante processo de atualização. Para início da pesquisa foram selecionados quatro materiais fundamentais para o trabalho de criação dramatúrgica: o corpo, o texto teatral, o ritmo e o espaço. Todos os materiais foram analisados como suporte e estímulo para a materialização da cena. Em relação ao levantamento prático sobre a dramaturgia do ator, foram detalhados aqui dois processos de criação observados pela pesquisadora e um processo vivenciado como atriz-pesquisadora. Ao final deste trabalho, propõe-se um estudo sobre o conceito e a prática da dramaturgia do ator, utilizando como base reflexiva teóricos contemporâneos, pensando-se a formação deste ator-criador. Conclui-se que todo o aporte teórico-prático deste trabalho serviu para a análise e apontamentos sobre o foco principal: a dramaturgia do ator / Abstract: This research aims to question, observe and analyse the actor¿s dramaturgy experienced in Brazilian contemporary drama. Therefore, it has the objective to describe in details the creation process regarding the collective dramaturgy, that is, a dramaturgy in which the actor participates in the creative process actively and many times has the voice of an author, creator or composer, whose scores and subscores are lived and experimented through the actor-performer¿s body. Besides, reflections on the actor¿s autonomy in the creation process are made, being chosen three bases as a focus: material choices, the creation process itself and the constant upgrading process. It is relevant to emphasize that all three bases, in this study, have an unfinished aspect as well as constant upgrading. In order to start this research, four materials were selected for the dramaturgy creation work: the body, the play, the rhythm and the space. All of the materials were analyzed as support and stimulus for the scene materialization. In terms of the applied survey about the actor¿s dramaturgy, two processes of creation were detailed here which were observed by the researcher and one process was experienced as an actress-researcher. At the end of this dissertation, a study is proposed about the concept and practice of the actor¿s dramaturgy, using contemporary theorists as a reflective basis, thinking of the construction of the actor-creator. In conclusion, all the theoretical and practical support of this study was used to analyze and observe its main focus: the actor¿s dramaturgy / Mestrado / Artes Cenicas / Mestra em Artes
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Annual Report 2009 - Institute of Ion Beam Physics and Materials Researchvon Borany, J., Heera, V., Fassbender, J., Helm, M., Möller, W. January 2010 (has links)
The Institute of Ion Beam Physics and Materials Research (IIM) is one of the six institutes of the Forschungszentrum Dresden-Rossendorf (FZD), and contributes the largest part to its Research Program \"Advanced Materials\", mainly in the fields of semiconductor physics and materials research using ion beams. The institute operates a national and international Ion Beam Center, which, in addition to its own scientific activities, makes available fast ion technologies to universities, other research institutes, and industry. Parts of its activities are also dedicated to exploit the infrared/THz free-electron laser at the 40 MeV superconducting electron accelerator ELBE for condensed matter research. For both facilities the institute holds EU grants for funding access of external users.
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Annual Report 2010 - Institute of Ion Beam Physics and Materials Researchvon Borany, Johannes, Fassbender, Jürgen, Heera, Viton, Helm, Manfred January 2011 (has links)
The Institute of Ion Beam Physics and Materials Research (IIM) is one of the six institutes of what was called Forschungszentrum Dresden-Rossendorf (FZD) until the end of 2010, but since this year 2011 is called “Helmholtz-Zentrum Dresden-Rossendorf (HZDR)”. This change reflects a significant transition for us: it means that the research center is now member of the Helmholtz Association of German Research Centers (HGF), i.e., a real government research laboratory, with the mission to perform research to solve fundamental societal problems. Often to date those are called the “Grand Challenges” and comprise issues such as energy supply and resources, health in relation to aging population, future mobility, or the information society.
This Annual Report already bears the new corporate design, adequate for the time of its issueing, but reports results from the year 2010, when we were still member of the Leibniz Association (WGL). Our research is still mainly in the fields of semiconductor physics and materials science using ion beams. The institute operates a national and international Ion Beam Center, which, in addition to its own scientific activities, makes available fast ion technologies to universities, other research institutes, and industry. Parts of its activities are also dedicated to exploit the infrared/THz freeelectron laser at the 40 MeV superconducting electron accelerator ELBE for condensed matter research. For both facilities the institute holds EU grants for funding access of external users.
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Annual Report 2017 - Institute of Ion Beam Physics and Materials ResearchFaßbender, J., Heera, V., Helm, M., Zahn, P. 24 May 2018 (has links)
No description available.
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Annual Report 2016 - Institute of Ion Beam Physics and Materials ResearchFaßbender, Jürgen, Heera, Viton, Helm, Manfred, Zahn, Peter 24 April 2017 (has links)
Content:
Preface
Selected publications
Statistics
(Publications and patents, Concluded scientific degrees; Appointments and honors; Invited conference contributions, colloquia, lectures and talks; Conferences, workshops, colloquia and seminars; Exchange of researchers; Projects)
Doctoral training programme
Experimental equipment
User facilities and services
Organization chart and personnel
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Funktionalisierte Kohlenstoffnanoröhren: Materialforschung in der NanoweltKlingeler, Rüdiger, Pichler, Thomas, Kramberger, Christian, Leonhardt, Albrecht, Müller, Christian, Büchner, Bernd 31 August 2007 (has links)
Thanks to their extraordinary properties, carbon nanotubes reveal a promising potential for applications on the nanometre scale. When filled with metals or ferromagnets, nano-wires and magnets with a protecting carbon shell are realised. Different synthesis routes are described, such as laser ablation and chemical vapour deposition. Probes for magnetic force microscopy based on ironfilled carbon nanotubes are presented, and demonstrate a high spatial resolution, with the carbon shells at the same time providing effective wear resistance. We show also the potential of carbon nanotubes for biomedical applications, in particular their suitability as magnetic nano-heaters, drug-carrier systems or sensors for diagnostic and therapeutic usage on the cellular level. / Außergewöhnliche Materialeigenschaften machen Kohlenstoffnanoröhren zu einem vielseitigen nanoskaligen Werkstoff. Füllt man sie zum Beispiel mit metallischen oder ferromagnetischen Materialien, so ergeben sich durch eine Kohlenstoffhülle geschützte „Nano- Kabel“ oder Nano-Magnete. Neben verschiedenen Syntheseverfahren wie der Laserablation und der Chemischen Gasphasenabscheidung werden grundlegende physikalische Eigenschaften sowie Anwendungen in der Messtechnik und in der Medizin vorgestellt. In der Magnetkraftmikroskopie versprechen magnetisch gefüllte Kohlenstoffnanoröhren eine hohe laterale Auflösung bei gleichzeitigem Schutz des magnetischen Messsensors durch die Außenhülle. Im Bereich der biomedizinischen Anwendungen stellen Kohlenstoffnanoröhren ein nanoskaliges Transportmedium dar, das zum Transfer von Funktionsmaterialien in einzelne Zellen, zum Beispiel für magnetische Sensorik oder für Medikamententransporte, angewendet werden kann.
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Fully-coupled fluid-structure analysis of a baffled rectangular orthotropic plate using the boundary element and finite element methodsFronk, Thomas Harris 28 July 2008 (has links)
Laminated composite plates have become an important and proven structural material in aerospace and ocean vehicles. However, because of the inherent orthotropy of laminated composite materials the analysis of these structures is complex and usually cannot be adequately performed using classical methods. In this dissertation the formulation of the fully coupled fluid-structure interaction of a laminated composite plate and its surrounding fluid medium is presented. The solution technique involves the finite element method for modeling the structural response and the boundary element method for modeling the acoustic field. The model incorporates the Mindlin plate theory which includes five degrees of freedom. An improved integration technique is demonstrated which significantly reduces the approximation error. Storage requirements are reduced by grouping complex numbers. Finally the fully coupled fluid-structure interaction involving laminated composite plates is modeled using the combined FEM-BEM approach demonstrating the usefulness and the significance of the method. / Ph. D.
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Properties and performance of a ceramic composite componentDunyak, Thomas John 28 July 2008 (has links)
This dissertation culminates a three year research program investigating the properties and performance of a tubular, ceramic composite component. Eight test specimens were fabricated using an injection molding process with a borosilicate glass matrix reinforced with chopped graphite fibers. These specimens were then tested under quasi-static and cyclic loading at room temperature.
Due to the infancy of CMC materials and, especially, CMC components, the program included a very broad-based investigation into many areas which are considered well-established for more conventional materials, and a very extensive and diverse set of achievements were realized. A tubular CMC test specimen representing an engineering component was designed and fabricated. A high temperature multiaxial test facility for ceramic matrix composite components was developed and installed at Virginia Tech. Nondestructive and destructive test methods for CMC components were developed, and a thorough investigation of the failure mechanisms in injection molded CMC tubes subjected to room temperature, quasi-static and cyclic loading was conducted in spite of a very limited quantity of material. As a result of this investigation, performance limiting defects in the injection molded tubes were identified. In addition, a generalized modeling approach was investigated for the analysis of complex, composite components which includes the effects of damage development under static and cyclic loading. All of these topics are discussed in detail in this dissertation. / Ph. D.
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Design of a permanent magnet motor and a drive for cranking purposesPappu, Gita 12 June 2010 (has links)
The development of Magnaquench in 1985 by the Delco-Remy laboratories, increased the research of applications of permanent magnets for use in automobiles. However the application of permanent magnet machines for cranking purposes has not been investigated much.
Difficult operating conditions, like, a maximum current density of 35A/mm², and the ability to withstand demagnetizing armature currents up to 250% of the stall current require a new design approach to be developed.
Commutation in the permanent magnet machine is obtained by a three phase full wave inverter. The machine - inverter model was simulated by a standard method (SPICE), and an second analytical method we developed.
A permanent magnet brushless motor and a drive for cranking purposes is designed and simulated as a part of this thesis. / Master of Science
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The relationship between the crushing strength of brittle materials and the size of cubical specimens testedNoble, John Mills 11 May 2010 (has links)
Cubes of coal have been tested in compression in the past, and it has been found. that the following formula, relating the compressive strength to the size of the cube can be applied:
P = k .a- n
Where P is the compressive strength in pounds per square inch.
a is the edge dimension os specimens tested.
n is a constant.
k is a constant.
The value of n has been found by a majority of people working on coal to be 0.5, however, lower values have also been found.
In this study limestone shale and Plaster of Paris cubes, varying in size between one and three inches, and one and five inches in the case of shale, were tested in compression. The results were converted to logarithmic form, and the value of n determined for each material. It was found for the limestone and the Plaster of Paris that the value of n was close to zero over the range of sizes tested, indicating that the strength is independent of the size of the spec1men over the range one inch to three inch cubes. A value of 0.20 was found for the shale over the range one inch to five inches.
The Griffith crack theory of failure gives the following result:
P = k.c -0.5
Where P is the compressive strength in pounds per square inch.
2c is the length of cracks in the material.
k is a constant.
Thus, depending upon the relationship between c and a, the Griffith theory predicts that the value of n should be 0.5 for cracked materials where the length of crack is directly proportional to the edge dimension of the specimen, and zero where the length of crack is independent of the edge dimension of the specimen, in relatively uncracked materials. The Griffith theory is supported both by the results of compression tests, and by the results of the tests in this study and those previously conducted on coal. / Master of Science
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