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相关概念视频

Fluid Pressure over Flat Plate of Constant Width01:05

Fluid Pressure over Flat Plate of Constant Width

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When a body is submerged in water, it experiences fluid pressure acting normal on its surface and distributed over its area. For better design structures, it is crucial to determine the magnitude and location of the resultant force acting on the surface. In the case of a rectangular plate of constant width submerged in water, the pressure increases with depth, resulting in a linearly varying trapezoidal pressure distribution from the upper to the lower edge of the plate.
The resultant force...
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Hydrostatic Pressure Force on a Curved Surface01:04

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Hydrostatic pressure on curved surfaces is a fundamental concept in fluid mechanics with broad applications in the civil engineering field. When fluid is in contact with a curved surface, as in a reservoir, dam, or storage tank, it exerts pressure that varies in magnitude and direction along the curved surface. To assess the total hydrostatic force exerted by the fluid on a curved structure, engineers typically isolate the fluid volume adjacent to the surface and analyze the forces acting on...
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Fluid Pressure over Curved Plate of Constant Width01:12

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When a curved plate of constant width is submerged in a liquid, the pressure acting normal to the plate varies continuously both in magnitude and direction. Calculating the magnitude and location of the resultant force at a point is often challenging for such cases. One of the methods to determine the resultant force and its location involves separately calculating the horizontal and vertical components of the resultant force. This complex calculation can be simplified by representing the...
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Transformation of Plane Stress01:18

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Studying stress transformation is essential in understanding how stress components within a material, like a cube under plane stress, change with rotation. This change is analyzed by considering a prismatic element within the cube. As the element rotates, the stress components acting on it—both normal and shearing stresses—change in magnitude and orientation. This change is quantified using trigonometric functions of the rotation angle, relating the forces acting on the rotated element's...
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Transformation of Plane Strain01:12

Transformation of Plane Strain

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When analyzing elongated structures like bars subjected to uniformly distributed loads, it is essential to understand the transformation of plane strain when coordinate axes are rotated. This transformation helps to assess how material deformation characteristics vary with orientation, which is crucial in materials science and structural engineering.
Under plane strain conditions, typical for members where one dimension significantly exceeds the others, deformations and resultant strains are...
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Deformation in a Circular Shaft01:10

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One of the distinctive characteristics of circular shafts is their ability to maintain their cross-sectional integrity under torsion. In other words, each cross-section continues to exist as a flat, unaltered entity, simply rotating like a solid, rigid slab. To understand the distribution of shearing stress within such a shaft, consider a cylindrical section inside this circular shaft. This section has a length of L and a radius of R, with one end fixed. The radius of the cylindrical section is...
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Impacts of Free-falling Spheres on a Deep Liquid Pool with Altered Fluid and Impactor Surface Conditions
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水的影响:当球体变平时

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  • 1<a href="https://ror.org/04bnxa153">Naval Undersea Warfare Center Division Newport</a>, Newport, Rhode Island 02841, USA.

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概括
此摘要是机器生成的。

在水冲击时最大的水力动力学力并不发生在平面物体上. 相反,撞击器形状的转变显示,即使是稍微曲的物体也可以因为被困的气体而经历降低的峰值压力.

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科学领域:

  • 流体动力学 流体动力学
  • 水力动力学是指水力动力学.
  • 冲击力学的影响力学.

背景情况:

  • 水体对水的垂直冲击会产生显著的水力动力学力.
  • 增加了质量现象对球形和平面撞击器的影响力.
  • 被困的气体层改变了平面物体的撞击动态,降低了峰值压力.

研究的目的:

  • 为了确定一个球形盖撞击器过渡到平面撞击行为的关键鼻子曲率.
  • 为了研究撞击器形状和水力动力学力之间的关系.
  • 挑战普遍认为平面物体经历最大的水冲击力的主观.

主要方法:

  • 研究了基于鼻子曲率的撞击器行为过渡.
  • 与已建立的影响理论相关的观察到的限制行为.
  • 分析了被困气体动态对峰值压力的影响.

主要成果:

  • 确定了一个特定的曲率值,用于从球形到平面撞击行为的过渡.
  • 证明了对于完全平坦的物体,冲击压力不是最大的.
  • 展示了被困气体在减轻冲击力的重要作用.

结论:

  • 假设平面体产生最大的水冲击力是不正确的.
  • 撞击器鼻子曲率在确定水力动力冲击力的过程中起着至关重要的作用.
  • 了解这种转变对于准确预测冲击负载至关重要.