Direct 3D printing of silicone elastomer soft robots and their performance comparison with molded counterparts

2018 IEEE International Conference on Soft Robotics (RoboSoft) Pub Date : 2018-04-24 DOI:10.1109/ROBOSOFT.2018.8404935

O. D. Yirmibeşoğlu, John Morrow, S. Walker, W. Gosrich, Reece Canizares, Hansung Kim, U. Daalkhaijav, Chloë Fleming, C. Branyan, Y. Mengüç

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引用次数: 70

Abstract

Additive manufacturing has a wide range of applications and addresses many challenges inherited from conventional molding techniques such as human error, multistep fabrication, and manual handling. However, 3D printing soft functional robots with two-part platinum cure silicones requires development to match the material performance of the molded counterparts. In this paper, we present a custom 3D printer and an extrusion mechanism capable of 3D printing soft functional robots. Moreover, we compare the performance differences between our 3D printed soft robots and molded counterparts via lamination casting and lost wax casting. We validate our results by conducting multiple experiments such as blocked force, bend angle, failure pressure, and dimensional quality analyses. We demonstrate that our method enables 3D printing of soft robots that can perform better, or match the performance of molded counterparts while being more reliable and robust with the usage of the same materials.

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直接3D打印硅胶弹性体软体机器人及其与模制同类产品的性能比较

增材制造具有广泛的应用，并解决了传统成型技术遗留的许多挑战，例如人为错误，多步骤制造和手动处理。然而，具有两部分铂固化有机硅的3D打印软功能机器人需要开发以匹配模制对应物的材料性能。在本文中，我们提出了一个定制的3D打印机和挤出机构能够3D打印软功能机器人。此外，我们通过层压铸造和失蜡铸造比较了3D打印软机器人和模制机器人之间的性能差异。我们通过进行阻塞力、弯曲角度、失效压力和尺寸质量分析等多项实验来验证我们的结果。我们证明，我们的方法使3D打印的软体机器人可以表现得更好，或者与模制机器人的性能相匹配，同时使用相同的材料更可靠和坚固。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2018 IEEE International Conference on Soft Robotics (RoboSoft)

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