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相关概念视频

Screw: Problem Solving01:21

Screw: Problem Solving

459
In mechanical engineering, the interaction between a threaded screw shaft and a plate gear involves analyzing the resisting torque on the plate gear that can be overpowered when a specific torsional moment is applied to the shaft. To better comprehend this concept, consider a generic situation with a threaded screw shaft with a given mean radius and lead and a plate gear with a specified mean radius. The coefficient of static friction between the screw and gear is also provided.
To evaluate the...
459
Transmission Shafts: Problem Solving01:09

Transmission Shafts: Problem Solving

294
Designing a solid shaft that transmits power from a motor to a machine tool involves a series of calculations to ensure the shaft can withstand the stresses applied by bending moments and torques. First, calculate the torque exerted on the gear, considering the power transmitted by the shaft and its rotational speed. Following this, compute the tangential forces acting on the gears, which directly relate to the torque and the gear radius.
Next, use bending moment diagrams for the shaft to...
294
Net Torque Calculations01:19

Net Torque Calculations

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When a mechanic tries to remove a hex nut with a wrench, it is easier if the force is applied at the farthest end of the wrench handle. The lever arm is the distance from the pivot point (the hex nut in this case) to the person’s hand. If this distance is large, the torque is higher. Only the component of the force perpendicular to the lever arm contributes to the torque. Therefore, pushing the wrench perpendicular to the lever arm is more advantageous. If multiple people apply force to...
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Circular Shafts - Elastoplastic Materials01:24

Circular Shafts - Elastoplastic Materials

170
The study of solid circular shafts under stress shows that within the elastic limit, stress increases directly to the distance from the shaft's center. This relationship holds until the shaft reaches a critical point of stress, beyond which it begins to yield, marking the transition from elastic to plastic deformation. At this crucial juncture, the maximum torque the shaft can endure without permanent deformation is determined, signifying the limit of its elastic behavior.
As torque on the...
170
Angle of Twist: Problem Solving01:13

Angle of Twist: Problem Solving

397
An electric motor applies a torque of 700 N·m to an aluminum shaft, triggering a stable rotation. Two pulleys, B and C, are subjected to torques of 300 N·m and 400 N·m, respectively. The modulus of rigidity is provided as 25 GPa. With the knowledge of the length and diameter of each segment, the twist angle between the two pulleys can be computed. First, a section cut is made between pulleys B and C, and the cut cross-section is analyzed using a free-body diagram. Given that the...
397
Thin-Walled Hollow Shafts01:15

Thin-Walled Hollow Shafts

247
In analyzing a thin-walled hollow shaft subjected to torsional loading, a segment with width dx is isolated for examination. Despite its equilibrium state, this segment faces torsional shearing forces at its ends. These forces are quantitatively described by the product of the longitudinal shearing stress on the segment's minor surface and the area of this surface, leading to the concept of shear flow. This shear flow is consistent throughout the structure, indicating a uniform distribution...
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Updated: Sep 16, 2025

An Improved Mechanical Testing Method to Assess Bone-implant Anchorage
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对扭矩限值确定算法的准确性测试,用于智能骨头螺丝刀.

Jack A Wilkie1,2, Alberto Battistel1, Paul D Docherty3

  • 1Institute of Technical Medicine, Hochschule Furtwangen University, Jakob-Kienzle-Strasse 17, 78054 Schwenningen, Germany.

Sensors (Basel, Switzerland)
|July 12, 2025
PubMed
概括
此摘要是机器生成的。

这项研究使用插入数据估计了骨螺丝剥离扭矩,达到92.6%的准确度. 这种方法可以通过防止螺丝松动或线程剥离来改善整形外科的固定质量.

关键词:
骨头螺丝螺丝 骨头螺丝螺丝参数识别 参数识别智能螺丝刀 智能螺丝刀扭矩控制器可以控制扭矩.

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相关实验视频

Last Updated: Sep 16, 2025

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科学领域:

  • 整形外科手术 整形外科手术
  • 生物材料工程 生物材料工程
  • 机械工程 机械工程

背景情况:

  • 精确的螺丝扭矩在骨科手术中对于有效的骨折固定至关重要.
  • 过度拉紧骨螺丝可能会导致线程脱落,而过度拉紧可能会导致松动.
  • 目前的方法在螺丝插入过程中缺乏精确的实时反.

研究的目的:

  • 开发和验证一种使用插入数据估计骨螺丝剥离扭矩的方法.
  • 根据已识别的材料强度来预测螺丝剥离扭矩.
  • 评估估计和实验确定的剥离扭矩之间的相关性.

主要方法:

  • 骨螺丝被插入到聚氨骨替代品中,直到剥离.
  • 扭矩和旋转数据是在螺丝插入过程中收集的.
  • 从插入数据中确定了材料强度,以预测剥离扭矩.

主要成果:

  • 在估计和实际剥离扭矩之间发现了强烈的相关性 (r=0.926).
  • 预测方法的平均误差为18%.
  • 识别的材料强度值与制造商数据高度相关 (r=0.977).

结论:

  • 开发的方法证明了估计骨螺丝剥离扭矩的可行性.
  • 这种方法显示了在骨科手术中提高骨折固定质量的潜力.
  • 为了临床应用,需要进一步开发和测试各种骨和人类骨样本.