Master Degree / Yüksek Lisans Tezleri
Permanent URI for this collectionhttps://hdl.handle.net/11147/3008
Browse
2 results
Search Results
Master Thesis A Research on Structural Design Approaches Within the Scope of Theory and Application(Izmir Institute of Technology, 1998) Korkmaz, Koray; Eyüce, ÖzenThe integration of creative, imaginative and economically feasible structures into the design process of _buildings has always been an essential issue in the history of architecture. The aim of this study is; to explore the relationship between the design of structural systems and the formation of architectural space, to display the changes in structure/space relationship in respect to scientific progress from the beginning of the age of positivism until today. This study is structured in two parts. At first, a morphological classification is made within a retrospective overview to explore the relationship of structure and space. Secondly, the age of positivism and the effects of positivism on architectural theories are explored to determine the changes in structure/space relationship. Today, the new developments in architectural space concept, such as "dynamic stability" affects the design of structures. Still, it is clear that the structure is an indispensable necessity during the process of shaping the space and architectural end product "building", whether the space is static or dynamic.Master Thesis A Research on a Reconfigurable Hypar Structure for Architectural Applications(Izmir Institute of Technology, 2013) Susam, Gözde; Korkmaz, Koray; Korkmaz, KorayKinetic design strategy is a way to obtain remarkable applications in architecture. These kinetic designs can offer more advantages compared to conventional ones. Basic knowledge of different disciplines is necessary to generate kinetic designs. In other words, interdisciplinary studies are critical. Therefore, architect's knowledge must be wide-ranging in order to increase novel design approaches and applications. The resulting rich hybrid products increase the potential of the disciplines individually. Research on kinetic structures shows that the majority of kinetic structures are deployable. However, deployable structures can only be transformed from a closed compact configuration to a predetermined expanded form. The motivation of the present dissertation is generating a novel 2 DOF 8R reconfigurable structure which can meet different hyperbolic paraboloid surfaces for architectural applications. In order to obtain this novel structure; the integration between the mechanism science and architecture is essential. The term reconfigurable will be used in the present dissertation to describe deployable structures with various configurations. The novel reconfigurable design utilizes the overconstrained Bennett linkage and the production principals of ruled surfaces. The dissertation begins with a brief summary of deployable structures to show their shortcomings and their lack of form flexibility. Afterward, curved surfaces, basic terms in mechanisms and overconstrained mechanisms were investigated. Finally, a proposed novel mechanism which is inspired from the basic design principles of Bennett linkage and the fundamentals of ruled surfaces are explained with the help of kinematic diagrams and models.