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相关概念视频

Deformation of Member under Multiple Loadings01:11

Deformation of Member under Multiple Loadings

427
When a rod is made of different materials or has various cross-sections, it must be divided into parts that meet the necessary conditions for determining the deformation. These parts are each characterized by their internal force, cross-sectional area, length, and modulus of elasticity. These parameters are then used to compute the deformation of the entire rod.
In the case of a member with a variable cross-section, the strain is not constant but depends on the position. The deformation of an...
427
Transformation of Plane Strain01:12

Transformation of Plane Strain

474
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...
474
Deformations in a Transverse Cross Section01:21

Deformations in a Transverse Cross Section

577
When a material is subjected to uniaxial stress, it elongates or contracts in the direction of the applied force, and also undergoes changes in the perpendicular directions. This behavior is crucial for understanding how materials behave under stress and is governed by mechanical properties such as Poisson's ratio v, which measures the ratio of transverse strain to axial strain.
As the material stretches, it expands or contracts in orthogonal directions to the load. This phenomenon varies...
577
Deformation in a Circular Shaft01:10

Deformation in a Circular Shaft

821
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...
821
Plastic Deformations of Members with a Single Plane of Symmetry01:21

Plastic Deformations of Members with a Single Plane of Symmetry

328
When a structural member undergoes plastic deformation due to bending, it is crucial to understand the position of the neutral axis and the stress distribution. This member, characterized by a single plane of symmetry, exhibits a uniform stress distribution, with negative stress above the neutral axis and positive stress below. Notably, the neutral axis does not align with the centroid of the cross-section. This misalignment is typical in cases where the cross-section is not rectangular or...
328
Three-Dimensional Analysis of Strain01:29

Three-Dimensional Analysis of Strain

575
Three-dimensional strain analysis is crucial for understanding how materials deform under stress, particularly in elastic, homogeneous materials. This method employs principal stress axes to simplify complex stress states into more understandable forms. Subjected to stress, a small cubic element within a material either expands or contracts along these axes, transforming into a rectangular parallelepiped. This transformation effectively illustrates the material's deformation. The principal...
575

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相关实验视频

Updated: Jan 10, 2026

Structural Design and Manufacturing of a Cruiser Class Solar Vehicle
14:57

Structural Design and Manufacturing of a Cruiser Class Solar Vehicle

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通过新的三维变形策略来优化船体形状.

Dezhi Wei1, Luyao Wang2, Jianghao Yang1

  • 1New Energy Engineering Institute, Power China Huadong Engineering Corporation Limited, Hangzhou, 311122, China.

Scientific reports
|November 25, 2025
PubMed
概括

一种新的3D转移方法允许优化船体形状的长度,梁和草稿. 这种先进的技术在60系列船体模拟中将总阻力降低了7.3%.

关键词:
拖拉优化优化 拖拉优化自由的表面波浪的高度.车身外形变形的变形转移方法 转移方法

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Quantification of Strain in a Porcine Model of Skin Expansion Using Multi-View Stereo and Isogeometric Kinematics
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Quantification of Strain in a Porcine Model of Skin Expansion Using Multi-View Stereo and Isogeometric Kinematics

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相关实验视频

Last Updated: Jan 10, 2026

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14.3K
Flapping Soft Fin Deformation Modeling using Planar Laser-Induced Fluorescence Imaging
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科学领域:

  • 海军建筑 海军建筑
  • 计算流体动力学的流体动力学.
  • 优化优化 优化优化

背景情况:

  • 传统的转移方法仅限于船体的纵向转变.
  • 现有的方法难以处理复杂的几何形状和最小的纵向变化.
  • 梁或草稿的调整受到限制,阻碍了全面的船体形状优化.

研究的目的:

  • 为优化船体形状提出一种新的三维转移方法.
  • 为了能够同时控制长度,梁和导航方向的变形.
  • 为了最大限度地降低60系列船体的总平静水阻力.

主要方法:

  • 3D转移方法的开发和数值验证.
  • 计算流体动力学 (CFD) 模拟用于电阻计算.
  • 与Kriging代孕模型和优化遗传算法的集成.

主要成果:

  • 3D转移方法证明了全面变形控制的可行性.
  • 在60系列船体中,总平静水阻力减少了7.3%.
  • 优化过程有效地利用了很少的变量来显著降低阻力.

结论:

  • 拟议的3D转移方法克服了传统方法的局限性.
  • 这种方法为优化提供了对船体几何学的高效和全面的控制.
  • 基于CFD的优化成功地使用新方法降低了船体阻力.