Sürdürülebilir Yeşil Kampüs Koleksiyonu / Sustainable Green Campus Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7755
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Master Thesis Utilising Origami for Packaging Design: a Survey for Analysing User Preferences(Izmir Institute of Technology, 2019) Büyükyılmaz, Nur; Tunç Cox, Ayça; Tunç Cox, Ayça; 02.04. Department of Industrial Design; 02. Faculty of Architecture; 01. Izmir Institute of TechnologyIn this thesis, origami is studied from the packaging design's point of view. One of the main objectives of this thesis is to show the usage of origami in packaging design. It is aimed to analyze the packaging preferences of consumers. It is evaluated how behaviors of consumers for multifunctional origamic packaging and it is measured what percentage of them would reuse those origamic packaging samples. In brief, this study particularly focuses on the incorporation of origami in industrial design for a less consumption-driven design practice. Accordingly, introduction presents the aim of this as well as identifying research method and tools. Then, consumption trends and material culture along with the history of consumption are examined. The interaction between play/game activity and consumption is explored. Packaging design is explained in detail. In this context, the relationship between packaging and consumption is analyzed. Following a detailed analysis of consumption on environment, green design is discussed as a form of solution to this problem. For the purposes of this thesis, environmentally friendly packaging design prove important, therefore, the concept is explored thoroughly. History, types and usage areas of origami are explained in the fourth chapter. Origami in daily life objects and packaging is sampled. Finally, the thesis includes a case study applied at Karşıyaka Universal Child Museum and Education Campus which measures how museum consumers would react to multifunctional origamic packaging. The origamic multifunctional package samples are viewed and questionnaire are analyzed. The results of statistical data are interpreted for each criterion.Doctoral Thesis Kinematic Design and Analysis of Deployable Vault and Pseudo-Dome Structures Based on Origami Techniques(Izmir Institute of Technology, 2017) Karaveli Kartal, Andree Sonad; Korkmaz, Koray; Korkmaz, Koray; 02.02. Department of Architecture; 02. Faculty of Architecture; 01. Izmir Institute of TechnologyIn recent years a need for more adaptable and flexible structures have been observed due to the changing spatial and functional needs. One of the solutions for an adaptable space in architecture is deployable structures. These kinds of structures provide flexible solutions to the functional and spatial necessities of an environment. There are different kinds of deployable structures such as bar and foldable plate structures, membrane, inflatable, cable/strut etc. This study presents a method of designing a pseudo-dome flat-foldable and deployable plate structure (rigid origami) based on origami patterns that have a polar rotation deployment axis. To achieve this objective, first a method of designing flat-foldable and linearly deployed barrel vault structures have been created by analyzing their geometrical properties. This analysis along with a workspace analysis provided knowledge on the geometrical relations between the cross-sections and deployment parameters. These relations allowed the design of a flat-foldable rigid origami structure based on the geometry of the cross-section using a pattern-generator. The method of using a pattern-generator to create an origami pattern has been modified to achieve a polar rotated deployable pseudo-dome structure. The design method allows the designer to calculate all the relevant parameters to create an origami structure by modifying three parameters for barrel vault foldable structures and two parameters for pseudo-dome structures. The created origami pattern is then transformed to a foldable deployable plate structure with the intended design requirements. The design processes for both design methods have been explained with case studies.