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Main Authors: Lin, Rosalie, Maheshwari, Aditi, Park, Jung Wook, Danielescu, Andreea
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.05664
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author Lin, Rosalie
Maheshwari, Aditi
Park, Jung Wook
Danielescu, Andreea
author_facet Lin, Rosalie
Maheshwari, Aditi
Park, Jung Wook
Danielescu, Andreea
contents Fabric has been a fundamental part of human life for thousands of years, providing comfort, protection, and aesthetic expression. While modern advancements have enhanced fabric's functionality, it remains static and unchangeable, failing to adapt to our evolving body shapes and preferences. This lack of adaptability can lead to unsustainable practices, as consumers often buy more items to meet their changing needs. In this paper, we propose ExoFabric, a re-moldable fabric system for customized soft goods applications. We created ExoFabric by embedding thermoplastic threads into fabric through computerized embroidery to allow for tunability between rigid plastic and conformable fabric. We defined a library of design primitives to enable geometric formability, stiffness, and stretchability by identifying suitable fabrics, threads, embroidery parameters, and machine limitations. To facilitate practical applications, we demonstrated practical methods for linking parameters to application requirements, showcasing form-fitting wearables, structural support, and shape-changeable furniture for repeatable or one-time customization.
format Preprint
id arxiv_https___arxiv_org_abs_2501_05664
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ExoFabric: A Re-moldable Textile System for Creating Customizable Soft Goods and Wearable Applications
Lin, Rosalie
Maheshwari, Aditi
Park, Jung Wook
Danielescu, Andreea
Emerging Technologies
Human-Computer Interaction
Fabric has been a fundamental part of human life for thousands of years, providing comfort, protection, and aesthetic expression. While modern advancements have enhanced fabric's functionality, it remains static and unchangeable, failing to adapt to our evolving body shapes and preferences. This lack of adaptability can lead to unsustainable practices, as consumers often buy more items to meet their changing needs. In this paper, we propose ExoFabric, a re-moldable fabric system for customized soft goods applications. We created ExoFabric by embedding thermoplastic threads into fabric through computerized embroidery to allow for tunability between rigid plastic and conformable fabric. We defined a library of design primitives to enable geometric formability, stiffness, and stretchability by identifying suitable fabrics, threads, embroidery parameters, and machine limitations. To facilitate practical applications, we demonstrated practical methods for linking parameters to application requirements, showcasing form-fitting wearables, structural support, and shape-changeable furniture for repeatable or one-time customization.
title ExoFabric: A Re-moldable Textile System for Creating Customizable Soft Goods and Wearable Applications
topic Emerging Technologies
Human-Computer Interaction
url https://arxiv.org/abs/2501.05664