SHAPE-MEMORY MATERIALS AS CONTROL ELEMENTS USED IN DOT BRAILLE ACTUATOR

Q3 Engineering International Journal of Mechanics and Control Pub Date : 2014-01-01 DOI:10.7494/MECH.2014.33.4.83

J. Bryła, A. Martowicz

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引用次数: 5

Abstract

The objective of this paper is to show a designing process for actuators that utilizes shape-memory materials. Analytical studies are carried out to design a dot actuator to be used in an electronic Braille display. Shape-memory materials are a relatively new group of smart materials that exhibit the transformation of their internal structures in solid state phases resulting from external mechanical or thermal excitation. This unique property shows up as three phenomena: one- and two-way memory effects as well as superelasticity, which all significantly influence the change of both the material properties and geometry. Hence, shape-memory materials are used as actuators effectively controlled by the above-mentioned types of excitation. The work presents the design guidelines for a proposed technical solution as well as the phenomenon utilized in the elaborated model of the actuator. The authors derived the mathematical descriptions for the proposed design configuration and an example of the calculations is shown. Moreover, the characteristics of the elaborated configuration are also discussed, taking into account the range of application areas.

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点式盲文执行器用形状记忆材料控制元件

本文的目的是展示利用形状记忆材料的致动器的设计过程。为设计一种用于电子盲文显示器的点致动器，进行了分析研究。形状记忆材料是一类相对较新的智能材料，它们在外部机械或热激励下表现出固态相内部结构的转变。这种独特的性质表现为三种现象:单向和双向记忆效应以及超弹性，它们都显著影响材料性能和几何形状的变化。因此，使用形状记忆材料作为执行器，有效地控制了上述类型的激励。该工作提出了提出的技术解决方案的设计准则，以及在执行器的详细模型中利用的现象。作者推导了所提出的设计结构的数学描述，并给出了计算实例。此外，考虑到应用领域的范围，还讨论了所述结构的特性。

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

International Journal of Mechanics and Control Engineering-Computational Mechanics

CiteScore

2.10

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0.00%

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