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Öğe Algılayıcı ve biyomalzeme üretiminde eklemeli imalatın gelişimine genel bir bakış(Gazi Universitesi, 2023) Kartal, Yunus; Daş, Memik TaylanWith the developing technology, additive manufacturing technique has become one of the manufacturing areas whose importance is increasing day by day in different fields. Additive manufacturing is a method based on the principle of producing/laying the object to be produced layer by layer. The additive manufacturing method is widely used in different industries such as aviation, automotive and biomedical due to its advantageous features such as easy production of complex shaped parts, cost and production speed. Due to these advantages, it has started to replace subtractive manufacturing methods in the near future. The production of wearable technology and biomaterials, which are among the additive manufacturing application areas, has been the focus of attention of researchers with an increasing momentum in recent years. This compilation study, which was carried out due to the successful applications of the additive manufacturing technique in these areas, is important in order to follow the current progress of the title and the course of future studies. For this purpose, it is aimed to convey the current developments in the field of wearable technology, especially on the production of sensors and biomaterials by additive manufacturing method. © 2023 Gazi Universitesi Muhendislik-Mimarlik. All rights reserved.Öğe An overview of the evolution of additive manufacturing in sensor and biomaterial production(Gazi Univ, Fac Engineering Architecture, 2023) Kartal, Yunus; Daş, Memik TaylanWith the developing technology, additive manufacturing technique has become one of the manufacturing areas whose importance is increasing day by day in different fields. Additive manufacturing is a method based on the principle of producing/laying the object to be produced layer by layer. The additive manufacturing method is widely used in different industries such as aviation, automotive and biomedical due to its advantageous features such as easy production of complex shaped parts, cost and production speed. Due to these advantages, it has started to replace subtractive manufacturing methods in the near future. The production of wearable technology and biomaterials, which are among the additive manufacturing application areas, has been the focus of attention of researchers with an increasing momentum in recent years. This compilation study, which was carried out due to the successful applications of the additive manufacturing technique in these areas, is important in order to follow the current progress of the title and the course of future studies. For this purpose, it is aimed to convey the current developments in the field of wearable technology, especially on the production of sensors and biomaterials by additive manufacturing method.Öğe Biyouyumlu Malzemelerin Üretimi için 4D Eklemeli İmalat Cihazı Tasarımı ve Üretimi(Kırıkkale Üniversitesi, 2023) Kartal, Yunus; Doğan, Deniz; Daş, Memik Taylan; Metin, Ayşegül ÜlküBu çalışmanın amacı biyouyumlu malzemelerin üretimi için alışılagelmiş kartezyen eksenlerinin haricinde tablada bulunan ve ekseni etrafında dönen dördüncü eksene sahip dört boyutlu (4D) eklemeli imalat cihazı tasarımı ve üretimidir. Bu kapsamda çeşitli mekanik ve elektronik aksesuar veya bileşenlerin teorik ve teknik detayları verilmektedir. Çalışma kapsamındaki dört boyutlu yazıcı üretilen malzemelerin özelliklerinin atmosfer koşullarından etkilenmesini engellemek amacıyla izole bir ortamda çalışmaktadır. Tasarımı ve üretimi gerçekleştirilen cihazda ultraviyole ışın altında poli(2-hidroksietil metakrilat) üretilmiş ve mekanik özellikleri incelenmiştir.
