This study focuses on the great development in 3D printing materials and the possibility of using them in fabrics that can be employed in the field of fashion, which leads to the search for the effectiveness of these materials in terms of function. This research examines the drape ability of materials created by 3D printing with TPU filament with varying degrees of elasticity, and comes to work and benefit from previous experiences in this field and the search for its applicability to suit the functional aspect of fashion, which gives the ease of movement of the body, and thus feel comfortable. the motifs used is inspired by Islamic art with varying sizes on tulle in order to know the material with the highest drape ability based on the size of units and the type of filaments used in 3D printing. During the research 6 materials were created using the difference of size, TPU filament, and inspired by Islamic motif which were printed using 3D printing techniques which were printed at the
In scope of changes in all aspects of human factors affecting fashion which require finding innovative design solutions interact and fit with technological variables. This paper focuses on developing parametric contemporary fashion designs inspired by Islamic motifs aiming to contribute in the fashion industry by utilizing the manipulation of parametric design concept with 3D printing technique to benefit from modern technology. The research proves the applicability of mixing the parametric design with 3D printing to suit the functional aspect of women's daywear fashion targeting the age group (30-40). Another result is to reach a designed solution to be applied on Islamic motifs to produce a contemporary wearable fashion using parametric design and 3D printing. During the research three contemporary fashion lines were created inspired by three different Islamic motifs. Three outfits were tailored at the MOJA Design Studio in Egypt. Islamic motifs were printed using 3D printing techniques which were printed at the Kyoto Design Lab, Kyoto Institute of Technology (KIT), Japan using Rhinoceros/Grasshopper program.
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