Multidirectional 3D printed functionally graded modular joint actuated by TCPFL muscles for soft robots  被引量：4

作　　者：Armita Hamidi Yara Almubarak Yonas Tadesse 

机构地区：[1]Humanoid,Bio-robotics and Smart Systems(HBS)Laboratory,Mechanical Engineering Department,The University of Texas at Dallas,Richardson,TX 75080,USA

出　　处：《Bio-Design and Manufacturing》2019年第4期256-268,共13页生物设计与制造（英文）

摘　　要：Highly deformable bodies are essential for numerous types of applications in all sorts of environments. Joint-like structures comprising a ball and socket joint have many degrees of freedom that allow mobility of many biomimetic structures. Recently, soft robots are favored over rigid structures for their highly compliant material, high-deformation properties at low forces, and ability to operate in di fficult environments. However, it is still challenging to fabricate complex designs that satisfy application constraints due to the combined e ffects of material properties, actuation method, and structural geometry on the performance of the soft robot. Therefore, a combination of a rigid joint and a soft body can help achieve modular robots with fully functional body morphology. Yet, the fabrication of soft parts requires extensive molding for complex shapes, which comprises several processes and can be time-consuming. In addition, molded connections between extremely soft materials and hard materials can be critical failing points. In this paper, we present a functionally graded 3D-printed joint-like structure actuated by novel contractile actuators. Functionally graded materials (FGMs) via 3D printing allow for extensive material property enhancement and control which warrant tunable functionalities of the system. The 3D-printed structure is made of 3 rigid ball and socket joints connected in series and actuated by integrating twisted and coiled polymer fishing line ( TCPFL) actuators, which are con fined in the FGM accordion-shaped channels. The implementation of the untethered T CPFL actuation system can be highly bene ficial for deployment in environments that require low vibrations and silent actuation. The fishing line TCP actuators produce an actuation strain up to 40% and bend the joint up to 40° in any direction. The T CPFL can be actuated individually or as a group to control the bending trajectory of the modular joint, which is bene ficial when deployed in areas that contain small crevices. Obtaining

关 键 词：Functionally GRADED 3D-printed Joint Multidirectional FISHING line TCP 

分 类 号：TP3[自动化与计算机技术—计算机科学与技术]