OPTIMIZATION FOR LARGE OR LINEAR TUNABLE STIFFNESS CONTROL WITH A CONCENTRIC CIRCULAR TAPERED BEAM DESIGN

机译：集中圆锥形梁设计的大型或线性可调谐刚度控制的优化

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Most examples of structure controlled Tunable Stiffness Mechanisms (TSM) systems have two predefined settings of stiffness, e.g. bi-stiffhess behavior, or they have a low range in tunable stiffness. In this research, this problem of control is overcome though optimization of a novel concentric circular tapered spring beam design with the novel design concept of changing the mode of deformation from bending to axial or shear. A Monte Carlo (MC) function is used with an analytical model - the unit load method of virtual work, to determine the optimum shape of two concentric tapered beams where the minimum stiffness is set, and the objective is to achieve linear and/or large stiffness change control. Three optimum designs were 3D printed, tested, and the stiffness vs. loading angle of control was validated with excellent correlation. The optimum design was obtained by changing the dominant loading modes.

机译：结构控制的可调刚度机构（TSM）系统的大多数示例具有两个预定义的刚度设置，例如双刚度行为，或者它们的可调刚度范围很低。在这项研究中，通过使用将变形模式从弯曲更改为轴向或剪切变形的新颖设计理念，优化了新颖的同心圆形锥形弹簧梁设计，克服了这一控制问题。蒙特卡洛（MC）函数与分析模型（虚拟工作的单位载荷方法）一起使用，以确定设置了最小刚度的两个同心锥形梁的最佳形状，目的是实现线性和/或较大刚度变化控制。对3种最佳设计进行了3D打印，测试，并验证了刚性与控制负载角之间的相关性极好。通过更改主要的加载模式可以获得最佳设计。

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《Mechanisms and robotics conference;ASME international design engineering technical conferences and computers and information in engineering conference》|2017年|V05AT08A004.1-V05AT08A004.9|共9页
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Shane Johnson; Anton Van Beek; Zeeshan Qaiser; Liping Kang;
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OPTIMIZATION FOR LARGE OR LINEAR TUNABLE STIFFNESS CONTROL WITH A CONCENTRIC CIRCULAR TAPERED BEAM DESIGN

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