        TY  - JOUR
T1  - Dijital Zanaatkarlıkta Katlanabilir Kumaş Kalıp Kullanımına Yönelik Deneysel Bir Yaklaşım
TT  - An Experimental Approach to Use Foldable Fabric-Formwork in Digital Craftsmanship
AU  - Güloğlu, Zehra
AU  - Akçay Kavakoğlu, Ayşegül
AU  - Gül, Leman Figen
PY  - 2024
DA  - September
Y2  - 2024
DO  - 10.53710/jcode.1512878
JF  - Journal of Computational Design
JO  - JCoDe
PB  - İstanbul Teknik Üniversitesi
WT  - DergiPark
SN  - 2687-4318
SP  - 183
EP  - 210
VL  - 5
IS  - 2
LA  - tr
AB  - Beton, mimarlık alanında en yaygın kullanılan malzemelerden biridir. Ancak betonun doğal akışkanlık özellikleri üzerine yeterli çalışma yapılmamıştır. Genel olarak beton, statik kalıplara dökülerek kullanılır ve bu da malzemenin sınırlı bir şekilde değerlendirilmesine neden olur. Bununla birlikte, kumaş ve betonun birlikteliği mimaride yeni olanaklar sunmaktadır. Esnek kumaş malzemeler, binaların organik form ve dokularını destekleyerek mekanın estetiğini zenginleştirirken, beton ise mukavemet sağlayarak yapıya dayanıklılık katmaktadır. Ayrıca, origami prensiplerinden ilham alan fabrigami tekniği, kumaş üzerinde uygulandığında dinamik bir kalıp oluşturmaktadır. Bu konuşlandırılabilir kalıba beton döküldüğünde, ortaya çıkan form tahmin edilemez ve çok çeşitli şekiller oluşturur. Bu nedenle, bu çalışmada konuşlandırılabilir kumaş kalıp ve betonun işbirliği sonucu ortaya çıkan form çeşitliliğinin keşfedilmesi amaçlanmaktadır. Bu çalışma üç aşamadan oluşur: i) birim deseninin seçilmesi, ii) seçilen birim desen vasıtasıyla konuşlandırılabilir kalıp sistemi tasarımı, iii) betonun kumaş kalıplara dökülmesi. Farklı form alternatiflerini görebilmek için çeşitli fiziksel deneyler yapılmıştır. Bu deneylerin ışığı altında, ortaya çıkan formlar üzerinde malzeme karışımı, kumaş cinsi ve özelliği, ve kalıp strüktürünün etkili olduğu görülmüştür. Sonuç olarak, elde edilen fiziksel ürünlerin dijital ortamla doğruluğunu test etmek için ilk önce hesaplamalı tasarım ortamında beton döküldükten sonraki simülasyonu yapılmıştır. Daha sonra 3B sayısal tarama yöntemleri kullanılarak fiziksel ürünler taratılmış ve bir karşılaştırma yapılmıştır. Elde edilen bulgular, gelecekte dinamik kalıpların kullanımının mühendislik, mimarlık ve sanat gibi birçok alanda kullanılabilecek yeni potansiyeller taşıdığını göstermektedir.
KW  - Beton
KW  - Fabrigami
KW  - Katlama
KW  - Kumaş Kalıp
N2  - Concrete is one of the most commonly utilized materials in the field of architecture. Nevertheless, there has been insufficient research into the natural fluidity properties of concrete.   Concrete is typically poured   into static molds, which constrains its potential applications. Nevertheless, the combination of fabric and concrete offers new possibilities in the field of architecture. The incorporation of flexible fabric materials into architectural designs enhances   the aesthetic appeal of spaces by complementing the organic forms and textures of buildings. Meanwhile   the incorporation of concrete into the structural frameworks provides strength and durability.   Furthermore, the fabrigami technique, which draws inspiration from origami, enables the creation of   dynamic mold when applied to fabric. The deployment of the mold results in unpredictable formation of a    wide variety of shapes when concrete is poured into it. the objective of this paper is to examine the variety of forms that emerge from the interaction between deployable fabric molds and concrete. The methodology of this study comprises three    stages, which are: i) the selection of the crease pattern for the unit, ii) the design of the deployable formwork system based on the selected unit pattern, and iii) the casting of concrete into fabric molds. These stages involve a feedback loop between the computational and analog modelling approaches. To investigate the potential of different form alternatives, a series of physical experiments were conducted. The experiments conducted revealed that   the resulting forms were significantly influenced by the material mixture, the type and properties of the fabric, and the mold structure. Consequently, to ascertain the veracity of the physical products generated, simulations were initially conducted in a computational design environment following the pouring concrete. Thereafter the physical products were 3D scanned with a comparison subsequently made. The findings indicate that the utilization of dynamic molds holds significant potential for future applications in various fields including engineering, architecture, and art.
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UR  - https://doi.org/10.53710/jcode.1512878
L1  - https://dergipark.org.tr/tr/download/article-file/4056025
ER  -