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Das Schweißen führt zu einer lokalen, ungleichmäßigen Erwärmung der Fügestelle. Die dadurch hervorgerufenen lokalen plastischen Verformungen und metallurgischen Werkstoffveränderungen bewirken nach der Abkühlung bleibenden Verzug und Eigenspannungen. Diese beeinflussen die reibungslose Durchführung des Fertigungsprozesses und die Qualität der geschweißten Konstruktion und schließlich stellen letztlich deren Einsatz in Frage. Somit steht für die meisten Industrieanwendungen die gesicherte Minimierung bzw. Beherrschung des Schweißverzuges und der Schweißeigenspannungen, insbesondere bei großen Konstruktionen im Vordergrund.
Mittels der Vorkenntnis über den zu erwartenden Verzug und die Entwicklung der Eigenspannungen während und nach dem Schweißen können zum einen geeignete Gegenmaßnahmen, wie beispielsweise Einspannszenarien, Vorverformungen oder Schweißreihenfolgen sowie eine gezielte Vor-, Zwischen- oder Nachwärmebehandlung zweckmäßig gewählt werden. Zum anderen ist es möglich, die darauffolgenden notwendigen Nachbehandlungen, wie z.B. das thermische Richten, schon in einem sehr frühen Stadium des Produktentwicklungsprozesses vorauszuplanen. Demzufolge besteht seitens der Forschung ein sehr großes Interesse an der Entwicklung verlässlicher Modelle und Methoden zur Schweißverzugs- und Eigenspannungsberechnung.
Die vorliegende Habilitationsschrift befasst sich mit den theoretischen Grundlagen und den simulationstechnischen Aspekten der Schweißverzug- und Eigenspannungsberechnung von großen komplexen Schweißkonstruktionen. Im Mittelpunkt stehen die analytisch-numerische Hybridmodelle. Diese bestehen aus einem analytischen Teil für die lokale thermomechanische Berechnung und einen numerischen Teil für die globale strukturmechanische Berechnung. Die beiden Teilaufgaben sind stark gekoppelt. Der Schwerpunkt liegt in der Weiteentwicklung und in den Umsatzmöglichkeiten des analytischen Ansatzes. Darüber hinaus wird die Anwendung der Hybriden Modellierung zur Berechnung von Verzug und Eigenspannungen in praxisrelevanten Schweißkonstruktionen an zahlreichen Beispielen demonstriert. Die Aspekte der Einbringung der Simulation in die Fertigungs- oder Produktkette werden ebenso thematisiert.
Climate change is a major threat to biodiversity and ecologists have identified necessary adaptation strategies. However, little research has been conducted so far on the economics of climate adaptation for biodiversity conservation. Three challenges arise from an economic perspective: How to (1) assess the impact of climate change on the cost-effectiveness of conservation, (2) consider the increasing uncertainty, and (3) evaluate conservation policy instruments under climate change. Addressing these challenges provides a thus far largely unexplored perspective on the economics of biodiversity conservation. This perspective relies on novel methodologies and provides policy-relevant insights.
In this thesis, these challenges are addressed in eight articles. Chapter 2 presents a novel economic evaluation framework to assess policy instruments for climate adaptation. Specific criteria are developed, their relevance for different strategies is assessed and suitable instruments identified.
Chapters 3 and 4 have a methodological focus as two climate-ecological-economic (CEE) models are developed. Chapter 3 presents an applied model integrating detailed sub-models able to assess the cost-effective spatio-temporal allocation of conservation measures. In chapter 4, methods from operations research are developed further to identify optimal time series of reserve networks. In both chapters, cost-effective conservation plans are identified in case study applications.
In chapter 5, CEE modelling is applied to examine the role of uncertainties regarding future climatic conditions. It is found that a trade-off between expected performance and robustness emerges in the case study in the future.
In chapters 6 to 8, CEE modelling is used to assess policy instruments under climate change. Chapter 6 examines an agri-environment scheme: cost-effectiveness requires flexibility in adapting the timing of conservation measures due to species’ adaptations and changes in costs. Chapter 7 examines two versions of land purchase: a “no sale” policy which prohibits sales for ecological reasons and a “sale” policy to enhance spatial flexibility for adaptation. A new trade-off is identified: while “no sale” mainly increases habitat permanence of expanding habitat types, “sale” improves the outcome for increasingly threatened habitat types. Chapter 8 is novel in its comparative analysis of two policy instruments considering spatial and management flexibility in a case study. It is found that in the case study, conservation contracts are more cost-effective than land purchase, but that the relative suitability switches when the conservation agency is able to capture producer rents.
Finally, chapter 9 uses the results of chapters 3 and 5 to develop an innovative teaching tool for students to learn about cost-effective biodiversity conservation under climate change.
Today, developers of human-computer interaction increasingly face high expectations regarding the adaptivity of interaction. The World Wide Web is a fitting example for how diverse and 'fickle' the demands on interaction are which users, service providers and even the available technical infrastructure pose. In this thesis, a general framework for the development of interaction for such heterogeneous and dynamic interaction environments is created. The main focus is the provision of abstract constructs which make it possible to specify interaction abstractly, i.e., independently from concrete properties of an individual interaction environment. We then show how such an abstract specification can be used to automatically create human-computer interfaces which - due to the fact that the automatic generation takes the current interaction environment into account - are tailored to the requirements of the current user, technical infrastructure, etc.
The thesis discusses the problems of database development and maintenance, and presents an approach to conceptual tuning realized by conceptual design using the HERM/RADD notation. The RADD design tool has been designed in order to develope HERM specifications graphically. RADD adds semantics and operations to the design, which are not directly annotated on the graphical specification, such as "afunctional" dependencies and SQL operations and procedures. The RADD/raddstar system extends the graphical specification of the database schema with the posibility to specify the operations and with the invocations for transforming the schema, for evaluating transactions, and for optimizing the schema, each of which according the implicite requirements graphically modeled and the explicite requirements specified by means of the conceptual specification language (CSL). CSL is used as command line interface of the RADD/raddstar. The graphical RADD schema as well as the CSL specifications are compiled into terms of the RADD* data model by the system, such that these terms are used for further evaluation actions. The actions performed by the RADD/raddstar (schema transformation, transaction and cost evaluating, schema optimization) are based on rules, that can be developed and modified by the user using the CSL.