Simon Holzer, Stefania Konstantinidi, Markus Koenigsdorff, T. Martinez, Y. Civet, Gerald Gerlach, Yves Perriard
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引用次数: 0
摘要
介电弹性体致动器(DEA)因其在软机器人和自适应结构方面的潜力而备受关注。然而,它们的性能往往受限于面内应变分布和有限的机械稳定性。我们介绍了一种利用纤维加固来应对这些挑战的新型设计。纤维加固增强了机械完整性,改善了应变分布,实现了高效的能量转换和平面外位移。我们讨论了实现纤维增强 DEA 的分析模型和制造工艺,包括材料选择。数值模拟和实验结果证明了纤维增强型等轴 DEA 的性能,并描述了其位移和受力能力。我们制作了介质厚度分别为 100 μm 和 200 μm 的致动器,分别有四根和八根纤维。最大平面外位移达到 500 μm,力为 0.18 N,显示了开发触觉装置的前景。
Fiber-Reinforced Equibiaxial Dielectric Elastomer Actuator for Out-of-Plane Displacement
Dielectric elastomer actuators (DEAs) have gained significant attention due to their potential in soft robotics and adaptive structures. However, their performance is often limited by their in-plane strain distribution and limited mechanical stability. We introduce a novel design utilizing fiber reinforcement to address these challenges. The fiber reinforcement provides enhanced mechanical integrity and improved strain distribution, enabling efficient energy conversion and out-of-plane displacement. We discuss an analytical model and the fabrication process, including material selection, to realize fiber-reinforced DEAs. Numerical simulations and experimental results demonstrate the performance of the fiber-reinforced equibiaxial DEAs and characterize their displacement and force capabilities. Actuators with four and eight fibers are fabricated with 100 μm and 200 μm dielectric thicknesses. A maximal out-of-plane displacement of 500 μm is reached, with a force of 0.18 N, showing promise for the development of haptic devices.
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