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Plastic Deformation in Circular Shafts01:20

Plastic Deformation in Circular Shafts

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When materials are subjected to forces that surpass their yield strength, they undergo a process known as plastic deformation. This results in a permanent alteration or strain in their structure. This concept can be specifically applied to circular shafts, where the deformation leads to a change in its shape. The precise evaluation of this plastic deformation requires understanding the stress distribution within the circular shaft, which is achieved by calculating the maximum shearing stress in...
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In mechanical systems, bearings are crucial in facilitating relative motion between two components while minimizing friction and wear. They help distribute various loads (radial, axial or a combination of both loads) across machinery parts, ensuring smooth and efficient operation.
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Children at play often make suspensions such as mixtures of mud and water, flour and water, or a suspension of solid pigments in water known as tempera paint. These suspensions are heterogeneous mixtures composed of relatively large particles visible to the naked eye or seen with a magnifying glass. They are cloudy, and the suspended particles settle out after mixing. The suspended particles in a suspension settle out after some time of mixing. The separation of particles from a suspension is...
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旋转的合体组件表现出机械超材料的行为.

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  • 1Huygens-Kamerlingh Onnes Laboratory, Leiden Institute of Physics, Leiden University, Leiden, The Netherlands.

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概括
此摘要是机器生成的。

研究人员使用基于DNA的合体枢纽创造了新的布朗机械超材料. 这些材料表现出受热波动和外部磁场驱动的受控形状变化,使得精确的可执行变形模式成为可能.

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科学领域:

  • 物理 物理学 物理
  • 材料科学 材料科学 材料科学
  • 纳米技术纳米技术

背景情况:

  • 生物机器利用布朗波动来执行操作,但合成机器由于刚性而缺乏这种能力.
  • 现有的带有热形状变化的系统要么无法控制,要么需要外部操纵.

研究的目的:

  • 开发由可控制变形模式的热波动驱动的合成超材料.
  • 用基于DNA的合体旋转来创建布朗的机械超材料.

主要方法:

  • 利用基于DNA的滑动接触来构建状枢纽,使其能够在枢纽点周围自由波动.
  • 采用分层组装策略来创建具有特定变形特征的布朗元材料.
  • 嵌入磁粒子在合体轴中,用于外部控制和精确的形状操纵.

主要成果:

  • 成功实现了原型旋转钻石和旋转三角形 (kagome) 几何.
  • 量化证明热波动驱动这些结构中预测的辅热变形.
  • 实现了可外部控制的合性超材料,这些材料利用布朗波动进行精确的形状变化.

结论:

  • 介绍了一种用于制造布朗机械超材料的新策略.
  • 展示了具有易于执行和精确控制的变形模式的元材料的创造.
  • 弥合了生物机器和合成机器之间的差距,利用热波动来执行操作.