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Main Authors: Tushar, Nahid, Wu, Rencheng, She, Yu, Zhou, Wenchao, Shou, Wan
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.08982
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author Tushar, Nahid
Wu, Rencheng
She, Yu
Zhou, Wenchao
Shou, Wan
author_facet Tushar, Nahid
Wu, Rencheng
She, Yu
Zhou, Wenchao
Shou, Wan
contents 3D printing has enabled various applications using different forms of materials, such as filaments, sheets, and inks. Typically, during 3D printing, feedstocks are transformed into discrete building blocks and placed or deposited in a designated location similar to the manipulation and assembly of discrete objects. However, 3D printing of continuous and flexible tape (with the geometry between filaments and sheets) without breaking or transformation remains underexplored and challenging. Here, we report the design and implementation of a customized end-effector, i.e., tape print module (TPM), to realize robot tape manipulation for 3D printing by leveraging the tension formed on the tape between two endpoints. We showcase the feasibility of manufacturing representative 2D and 3D structures while utilizing conductive copper tape for various electronic applications, such as circuits and sensors. We believe this manipulation strategy could unlock the potential of other tape materials for manufacturing, including packaging tape and carbon fiber prepreg tape, and inspire new mechanisms for robot manipulation, 3D printing, and packaging.
format Preprint
id arxiv_https___arxiv_org_abs_2401_08982
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Robot Tape Manipulation for 3D Printing
Tushar, Nahid
Wu, Rencheng
She, Yu
Zhou, Wenchao
Shou, Wan
Robotics
Systems and Control
3D printing has enabled various applications using different forms of materials, such as filaments, sheets, and inks. Typically, during 3D printing, feedstocks are transformed into discrete building blocks and placed or deposited in a designated location similar to the manipulation and assembly of discrete objects. However, 3D printing of continuous and flexible tape (with the geometry between filaments and sheets) without breaking or transformation remains underexplored and challenging. Here, we report the design and implementation of a customized end-effector, i.e., tape print module (TPM), to realize robot tape manipulation for 3D printing by leveraging the tension formed on the tape between two endpoints. We showcase the feasibility of manufacturing representative 2D and 3D structures while utilizing conductive copper tape for various electronic applications, such as circuits and sensors. We believe this manipulation strategy could unlock the potential of other tape materials for manufacturing, including packaging tape and carbon fiber prepreg tape, and inspire new mechanisms for robot manipulation, 3D printing, and packaging.
title Robot Tape Manipulation for 3D Printing
topic Robotics
Systems and Control
url https://arxiv.org/abs/2401.08982