Conducting polymer/solid polyelectrolyte actuating structures designed for realising steerable microcatheters are presented. They exploit the electromechanochemical phenomena of /spl pi/-electron conjugated conducting polymer occurring when ionic species are exchanged with the surrounding solid polyelectrolyte. Experimental determination of the governing material constants, modelling of the composite material and finite element computer simulations of the mechanical properties of cylindrical structures provide favourable indication about the feasibility of effective steerable, miniaturised catheters. Simulations about 2-3 Fr endoscope tips show that a degree of bending of about 30 and a developed distal force of about 4 gr can be obtained, The device would possess high potentialities for intravascular explorations and robotic-like diagnostic or surgical minimally invasive operations.
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机译:呈现用于实现可转向微观的聚合物/固体聚电解质致动结构。它们利用离子物质与周围固体聚电解质交换时发生的/ SPL PI / -Electron缀合的电感聚合物的电机化学现象。实验测定控制材料常数,复合材料的建模和圆柱结构的力学性能的有限元计算机模拟提供了关于有效可转向,小型导管的可行性的良好指示。仿真约2-3FR内窥镜尖端表明,可以获得约30的弯曲程度和约4克的发达的远端力,该装置将具有高潜力的血管内探索和机器人样诊断或手术微创操作。
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