Motion Analysis of McKibben Type Pneumatic Rubber Artificial Muscle with Finite Element Method

Takashi Nozaki; Toshiro Noritsugu

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Motion Analysis of McKibben Type Pneumatic Rubber Artificial Muscle with Finite Element Method

机译：McKibben型气动橡胶人工肌肉的有限元运动分析

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摘要

This study aims to use three-dimensional (3D) Finite Element Modeling (FEM) to establish a quantitative design optimization method for McKibben-type pneumatic rubber artificial muscle. First, a simple 3D model that does not account for the friction between the tube and the fiber braid strands and or that between the strands themselves is developed. The model is validated through experimentation, and the usefulness of the model is examined. With this model, the effects of various parameters, e.g., the braid angle, on the operation of the artificial muscle is investigated. It is found that the characteristics of the artificial muscle can be predicted. Thus, the proposed analysis may be a useful design method for braided artificial muscles.

机译：本研究旨在使用三维（3D）有限元建模（FEM）建立McKibben型充气橡胶人造肌肉的定量设计优化方法。首先，开发了一个简单的3D模型，该模型不考虑管与纤维编织线股之间的摩擦，也没有考虑股线本身之间的摩擦。通过实验验证了该模型，并检验了该模型的实用性。使用该模型，研究了各种参数（例如，编织角）对人造肌肉操作的影响。发现可以预测人造肌肉的特性。因此，提出的分析可能是编织人工肌肉的一种有用的设计方法。

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来源
《International journal of automation technology》 |2014年第2期|147-158|共12页
作者
Takashi Nozaki; Toshiro Noritsugu;
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作者单位

Shizuoka Institute of Science and Technology 2200-2 Toyosawa, Fukuroi, Shizuoka 437-8555, Japan;

Tsuyama National College of Technology 624-1 Numa, Tsuyama-City, Okayama 708-8509, Japan;

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正文语种 eng
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关键词
McKibben type pneumatic rubber artificial muscle; artificial muscle; finite element method; solid model; soft actuator;

机译：McKibben型气动橡胶人造肌;人造肌肉有限元法实体模型软执行器;

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1. Analysis on the Impact Factors for the Pulling Force of the McKibben Pneumatic Artificial Muscle by a FEM Model [J] . Qin Tu, Yanjie Wang, Donghai Yue, Journal of robotics . 2020,第Pta1期

机译：有组模型分析Mckibben气动肌肉拉力的影响因素
2. Analysis on the Impact Factors for the Pulling Force of the McKibben Pneumatic Artificial Muscle by a FEM Model [J] . Qin Tu, Yanjie Wang, Donghai Yue, Journal of robotics . 2020,第2期

机译：有组织模型对麦克亨恩气动肌肉拉力的影响因素分析
3. Proposal and Analysis of a Pneumatic Artificial Rubber Muscle with High-Damping Characteristics That Uses a Rubber Bellows [J] . Tomonori KATO, Manabu ONO, Tomoaki HIGASHI, JFPS International Journal of Fluid Power System . 2011,第1期

机译：使用橡胶波纹管的具有高阻尼特性的气动人造橡胶肌肉的建议和分析
4. Finite Element Analysis and Utilization of MCKibben Artificial Pneumatic Muscles for a Robotic Lower Leg Model [C] . Paulo Rafael V. Meris, Edward B.O. Ang, Mark Christian E. Manuel, International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management . 2020

机译：机器人下腿模型McKiben人工气动肌肉的有限元分析与利用
5. Analysis and design of incompressible rubber seals using experimental and finite element methods. [D] . Khuri, Michel Farid. 1989

机译：使用实验和有限元方法分析和设计不可压缩橡胶密封件。
6. Estimation of the Complex Dynamic Stiffness of Inflated Rubber Diaphragms in Pneumatic Springs Using Finite Element Method [O] . Yun-Ho Shin, Jeung-Hoon Lee 2020

机译：利用有限元法估计充气弹簧膨胀橡胶隔膜复杂动态刚度
7. Proposal and Analysis of a Pneumatic Artificial Rubber Muscle with High-Damping Characteristics That Uses a Rubber Bellows [O] . Tomonori KATO, Manabu ONO, Tomoaki HIGASHI, 2011

机译：具有橡胶波纹管的高阻尼特性的气动人工橡胶肌的提案和分析

Motion Analysis of McKibben Type Pneumatic Rubber Artificial Muscle with Finite Element Method

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