用于交互设计的流体驱动薄膜形状变化材料

Proceedings of the 32nd Annual ACM Symposium on User Interface Software and Technology Pub Date : 2019-10-17 DOI:10.1145/3332165.3347956

Qiuyu Lu, Jifei Ou, João Wilbert, André Haben, Haipeng Mi, H. Ishii

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引用次数: 39

摘要

本文介绍了一种设计空间、制造系统和在毫米尺度上为有形驱动界面创建流体室和通道的应用。设计和制造毫流体室的能力允许人们在薄膜材料上创建高频驱动，流的顺序控制和高分辨率设计。我们提出了创建这些流体室的四维设计空间，一种新颖的热密封系统，使微流体制造变得简单和精确，以及制造材料在触觉，环境设备和机器人技术中的应用演示。随着形状变化材料越来越多地集成到设计新颖的界面中，milorph丰富了流体驱动形状变化材料的库，并展示了在毫米尺度上独特的产品和交互设计的新设计机会。

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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milliMorph -- Fluid-Driven Thin Film Shape-Change Materials for Interaction Design

This paper presents a design space, a fabrication system and applications of creating fluidic chambers and channels at millimeter scale for tangible actuated interfaces. The ability to design and fabricate millifluidic chambers allows one to create high frequency actuation, sequential control of flows and high resolution design on thin film materials. We propose a four dimensional design space of creating these fluidic chambers, a novel heat sealing system that enables easy and precise millifluidics fabrication, and application demonstrations of the fabricated materials for haptics, ambient devices and robotics. As shape-change materials are increasingly integrated in designing novel interfaces, milliMorph enriches the library of fluid-driven shape-change materials, and demonstrates new design opportunities that is unique at millimeter scale for product and interaction design.

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