Abstract
In contemporary society, additive manufacturing, also known as 3D printing, is the most valuable production process. Fused Deposition Modeling (FDM) is the most concentrated version because of its versatility, output quality, speed, and other attributes. The goal of this study is to give readers a thorough understanding of FDM and the graphic examination of its effects in the textile industry. This article provides a detailed examination of FDM technology, covering its history, benefits, drawbacks, sustainability, and contributions to many FDM fields. A particular emphasis on the role that FDM plays in the textile industry, as well as its prospects for the future, has been examined, along with real-world examples. This study finds that without using traditional sewing, the clothes can be directly adjusted to fit body forms. Furthermore, the incorporation of electronic components via FDM creates opportunities for smart fabrics that may engage the environment or the individual wearing them in new ways, and additional research may make it a clear standard in the future.
First Page
112
Last Page
135
Recommended Citation
Farhana, Kaniz; Labid, Abdul Mahadin; Jahwa, Mahnur Rahman; Sadia, Sabikun Nahar; Rayhan, Kamal Tafcir; and Mahamude, Abu Shadate Faisal
(2025)
"FDM in Textiles - Present Scenario, Challenges and Future Prospects,"
The Nexus of Sustainability and Energy Technology Journal: Vol. 1:
Iss.
2, Article 4.
DOI: https://doi.org/10.63100/3080-1915.1008