A northern pike (Esox lucius) is capable of achieving a maximum instantaneous acceleration of 25g, far greater than that achieved by any manmade vehicle. In order to understand the physical mechanisms behind achieving such high accelerations, we have built a mechanical fish to emulate the motion of a pike, a fast-start specialist. A live pike bends its body into either a C-shaped or an S-shaped curve and then uncoils it very quickly to send a traveling wave along its body in order to achieve high acceleration. We have designed a mechanical fish whose motion is accurately controlled by servo motors, to emulate the fast-start by bending its body to a curve from its original straight position, and then back to its straight position. Furthermore, this mechanical fish is designed to be adjustable in swimming pattern, tail shape, tail rigidity, and body rigidity, making it possible to study the influence of all of these parameters on the fast-start performance. Peak accelerations of 2.0 m/s~2 and peak velocities of 0.09 m/s are measured. Although the maximum accelerations and velocities observed in our mechanical fish are smaller than those of live fish, the form of the measured acceleration signal as function of time is quite similar to that of a live fish. The hydrodynamic efficiencies are observed to be around 12%, and it is shown that the majority of the thrust is produced at the rear part of the mechanical fish - similarly to the live fish.
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机译:北方派克(Esox lucius)能够实现25g的最大瞬时加速度,远大于任何人造车辆所能达到的瞬时加速度。为了了解实现如此高的加速度背后的物理机制,我们制造了一条机械鱼来模仿派克(快速启动专家)的运动。实心派克将其身体弯曲为C形或S形曲线,然后非常快速地将其解开以沿其身体发送行波以实现高加速度。我们设计了一种机械鱼,其运动由伺服电机精确控制,通过将其主体从其原始笔直位置弯曲到曲线然后再回到其笔直位置来模拟快速启动。此外,该机械鱼的游泳方式,尾巴形状,尾巴刚度和身体刚度均可调,从而可以研究所有这些参数对快速启动性能的影响。测量的峰值加速度为2.0 m / s〜2,峰值速度为0.09 m / s。尽管在我们的机械鱼中观察到的最大加速度和速度小于活鱼,但是测得的加速度信号随时间变化的形式与活鱼非常相似。观察到流体动力效率约为12%,并且表明大部分推力是在机械鱼的后部产生的-与活鱼相似。
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