PunchPrint: Creating Composite Fiber-Filament Craft Artifacts by Integrating Punch Needle Embroidery and 3D Printing

Ashley Del Valle, Mert Toka, Alejandro Aponte, Jennifer Jacobs
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Abstract

New printing strategies have enabled 3D-printed materials that imitate traditional textiles. These filament-based textiles are easy to fabricate but lack the look and feel of fiber textiles. We seek to augment 3D-printed textiles with needlecraft to produce composite materials that integrate the programmability of additive fabrication with the richness of traditional textile craft. We present PunchPrint: a technique for integrating fiber and filament in a textile by combining punch needle embroidery and 3D printing. Using a toolpath that imitates textile weave structure, we print a flexible fabric that provides a substrate for punch needle production. We evaluate our material’s robustness through tensile strength and needle compatibility tests. We integrate our technique into a parametric design tool and produce functional artifacts that show how PunchPrint broadens punch needle craft by reducing labor in small, detailed artifacts, enabling the integration of openings and multiple yarn weights, and scaffolding soft 3D structures.
PunchPrint:通过集成打孔针刺绣和3D打印创建复合纤维-长丝工艺文物
新的打印策略使3d打印材料能够模仿传统纺织品。这些以长丝为基础的纺织品易于制造,但缺乏纤维纺织品的外观和手感。我们试图用刺绣来增强3d打印纺织品,以生产将增材制造的可编程性与传统纺织工艺的丰富性相结合的复合材料。我们提出了PunchPrint:一种结合打孔针刺绣和3D打印,将纤维和长丝整合在纺织品中的技术。使用模仿纺织组织结构的工具路径,我们打印了一种柔性织物,为冲孔针的生产提供了基板。我们通过拉伸强度和针相容性测试来评估材料的坚固性。我们将我们的技术集成到参数化设计工具中,并生产功能性工件,展示了PunchPrint如何通过减少小而详细的工件的劳动来扩大冲孔针工艺,从而实现开口和多个纱线重量的集成,以及脚手架软3D结构。
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