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相关概念视频

Bending of Curved Members - Strain Analysis01:14

Bending of Curved Members - Strain Analysis

138
The mechanics of deformation in curved members, such as beams or arches, under bending moments, involve complex responses. When such a member, symmetric about the y-axis and shaped like a segment of a circle centered at point C, is subjected to equal and opposite forces, its curvature and surface lengths change significantly. This alteration results in the shift of the curvature's center from C to C', indicating a tighter curve.
The important part of bending analysis for such a member...
138
Three-Dimensional Analysis of Strain01:29

Three-Dimensional Analysis of Strain

221
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...
221
Deformations in a Symmetric Member in Bending01:18

Deformations in a Symmetric Member in Bending

171
When analyzing the deformation of a symmetric prismatic member subjected to bending by equal and opposite couples, it becomes clear that as the member bends, the originally straight lines on its wider faces curve into circular arcs, with a constant radius centered at a point known as Point C. This phenomenon helps to understand the stress and strain distribution within the member more clearly.
When the member is segmented into tiny cubic elements, it is observed that the primary stress...
171
Deformation of Member under Multiple Loadings01:11

Deformation of Member under Multiple Loadings

166
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...
166
Eccentric Axial Loading in a Plane of Symmetry01:16

Eccentric Axial Loading in a Plane of Symmetry

199
Eccentric axial loading occurs when an axial load is applied away from the centroidal axis of a structural member. This scenario is common in engineering, where structural elements may not be directly aligned due to various design or functional requirements.
199
Deformation in a Circular Shaft01:10

Deformation in a Circular Shaft

291
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...
291

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树状3D对象的弹性形状分析使用扩展SRVF表示.

Guan Wang, Hamid Laga, Anuj Srivastava

    IEEE transactions on pattern analysis and machine intelligence
    |November 20, 2023
    PubMed
    概括

    我们介绍了一个新的数学框架来分析和比较复杂的3D树状生物结构. 这种方法准确地捕捉了形状变化,包括分支弹性和拓,优于现有的指标.

    科学领域:

    • 计算生物学 计算生物学
    • 几何分析 几何分析
    • 形状分析 形状分析

    背景情况:

    • 分析复杂的3D生物结构,如神经元和植物树,由于其复杂的几何和拓学,提出了挑战.
    • 现有的方法,如比率欧几里德距离 (QED) 和树编辑距离 (TED),在捕捉完整的形状变化方面存在局限性,并可能导致收缩工件.

    研究的目的:

    • 开发一种新的数学框架来表示,比较和计算树状3D生物物体之间的地测变形.
    • 创建一个新的度量,量化树状结构中的弹性和拓变化.

    主要方法:

    • 扩展了平方根速度函数 (SRVF) 表示,以容纳树状3D对象.
    • 定义了一个新的指标来量化曲,拉伸和分支滑动,以进行形状比较.
    • 应用框架来分析神经元和植物树结构.

    主要成果:

    • 拟议的基于SRVF的表示和度量有效地捕捉了分支弹性 (曲,拉伸) 和拓变化 (分支诞生/死亡,滑动).
    • 新的指标避免了QED和TED固有的收缩问题.
    • 在形状分析任务中表现出实用性,包括对称性分析,计算人口统计,拟合概率分布和合成新型树结构.

    结论:

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    • 这种新的框架为分析和比较复杂的3D树状生物对象提供了强大的方法.
    • 这种方法在现有指标上提供了显著的优势,因为它完全考虑了弹性和拓变化.
    • 展示的应用突显了其在计算生物学和形状分析方面的研究进步的潜力.