Trevor Exley, Emilly Hays, Daniel Johnson, Arian Moridani, Ramya Motati, Amir Jafari
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引用次数: 0
Abstract
Soft robotics is a rapidly growing field that spans the fields of chemistry, materials science, and engineering. Due to the diverse background of the field, there have been contrasting naming schemes such as "intelligent," "smart," and "adaptive" materials, which add vagueness to the broad innovation among literature. Therefore, a clear, functional, and descriptive naming scheme is proposed in which a previously vague name-Soft Material for Soft Actuators-can remain clear and concise-Phase-Change Elastomers for Artificial Muscles. By synthesizing the working principle, material, and application into a naming scheme, the searchability of soft robotics can be enhanced and applied to other fields. The field of thermo-active soft actuators spans multiple domains and requires added clarity. Thermo-active actuators have potential for a variety of applications spanning virtual reality haptics to assistive devices. This review offers a comprehensive guide to selecting the type of thermo-active actuator when one has an application in mind. In addition, it discusses future directions and improvements that are necessary for implementation.
软机器人技术是一个快速发展的领域,横跨化学、材料科学和工程学等领域。由于该领域的背景各不相同,因此出现了 "智能"、"智慧 "和 "自适应 "材料等截然不同的命名方案,这给文献中的广泛创新增添了模糊性。因此,我们提出了一种清晰、功能性和描述性的命名方案,使 "用于软执行器的软材料"(Soft Material for Soft Actuators)这一模糊的名称保持简洁明了--"用于人造肌肉的相变弹性体"(Phase-Change Elastomers for Artificial Muscles)。通过将工作原理、材料和应用综合到一个命名方案中,可以提高软机器人技术的可搜索性,并将其应用到其他领域。热活性软致动器领域横跨多个领域,需要进一步明确。热活性致动器具有多种应用潜力,包括虚拟现实触觉技术和辅助设备。这篇综述提供了一份全面的指南,帮助人们在考虑应用时选择热敏致动器的类型。此外,它还讨论了未来的发展方向以及实施过程中必须进行的改进。
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