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相关概念视频

Normal Stress01:19

Normal Stress

1.5K
Normal stress is a type of stress that occurs when forces act perpendicular, or normal, to a material's cross-sectional area. This stress often arises in structures when subjected to axial loading, which is the application of force along the axis of an object. A practical example of this can be found in bridge truss members.
When a rod is under axial loading, the internal forces and corresponding stress are normal to the plane of the section, so it is termed normal stress. It's important to...
1.5K
Stress: General Loading Conditions01:15

Stress: General Loading Conditions

743
To grasp the intricacy of real-world conditions where multiple loads are applied simultaneously to a structure, one might visualize a section passing through a specific point within a body, aligned parallel to the xy plane. This section is subjected to various forces, including original loads, normal forces, and shearing forces.
The shearing force, possessing potential directionality within the plane of the section, is simplified into two component forces running parallel to the x and y axes....
743
True Stress and True Strain01:28

True Stress and True Strain

1.1K
Engineering stress is calculated as the load divided by the original, undeformed cross-sectional area. It approximates a material under load. This approximation is especially relevant post-yield in ductile materials. Though engineering stress-strain diagrams are often used for their convenience and accessibility, they can sometimes fall short in accuracy, particularly when dealing with large strain values.
In contrast, true stress offers a more precise portrayal. It is computed by dividing the...
1.1K
Stress Concentrations01:24

Stress Concentrations

834
Stress concentration is when stress intensifies near discontinuities such as holes or abrupt cross-sectional changes in a structural member. This localized stress can often surpass the average stress within the member. The stress distribution in flat bars, either with a circular hole or varying widths connected by fillets, can be determined experimentally using a photoelastic method. The results are based on ratios of geometric parameters like the ratio of the hole's radius to the smaller...
834
Stress Concentrations01:13

Stress Concentrations

813
The concept of stress concentration is crucial for understanding how materials respond under bending stresses, particularly when there are irregularities or discontinuities in the material's geometry. Normally, stress in a symmetric member subjected to pure bending is assumed to be uniformly distributed across the entire cross-section. However, this assumption does not hold when there are variations in the cross-sectional geometry or the presence of notches and holes.
The stress...
813
Measurements of Strain01:27

Measurements of Strain

2.8K
Strain quantifies the deformation of a material under force, typically measured as normal strain, which represents the change in length when compared with the original length. Electrical strain gauges are used for enhanced accuracy. These devices consist of a conductive wire mounted on a paper backing that adheres to the material's surface. These gauges operate on the piezoresistive effect, where the wire's electrical resistance changes in response to mechanical deformation. The strain...
2.8K

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相关实验视频

Updated: May 3, 2026

Stress Distribution During Cold Compression of Rocks and Mineral Aggregates Using Synchrotron-based X-Ray Diffraction
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Stress Distribution During Cold Compression of Rocks and Mineral Aggregates Using Synchrotron-based X-Ray Diffraction

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规模如何打破"正常化压力"和KL分歧:重新思考质量指标

Kiran Smelser, Kaviru Gunaratne, Jacob Miller

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    PubMed
    概括
    此摘要是机器生成的。

    研究人员开发了一种规模不变技术,以提高高维数据可视化准确度指标. 这解决了正常化应力和库尔巴克-莱布勒分歧的局限性,增强了缩小维度的评估.

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    相关实验视频

    Last Updated: May 3, 2026

    Stress Distribution During Cold Compression of Rocks and Mineral Aggregates Using Synchrotron-based X-Ray Diffraction
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    Published on: May 20, 2018

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    Investigating Stress-relaxation and Failure Responses in the Trachea
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    科学领域:

    • 数据可视化数据可视化
    • 机器学习 机器学习
    • 计算生物学是一种计算生物学.
    • 社会科学 社会科学 社会科学

    背景情况:

    • 高维数据可视化依赖于二维散射图.
    • 像正常化应力和库尔巴克-莱布勒 (Kullback-Leibler,KL) 差异这样的质量指标可以评估预测的准确性.
    • 当前的指标对统一的扩展敏感,影响评估可靠性.

    研究的目的:

    • 调查统一缩放对规范应力和KL差异的影响.
    • 开发一种规模不变的方法来改进这些缩小尺寸的质量指标.
    • 用分析和经验方法验证拟议的技术.

    主要方法:

    • 对应力和KL差异的缩放效应的分析研究.
    • 在统一的缩放下,对指标行为进行实证评估.
    • 开发和应用一种新的尺度不变调整技术.

    主要成果:

    • 证明了正常化应力和KL差异对均缩放的显著敏感性.
    • 量化了缩放对指标值和尺寸缩小评估的影响程度.
    • 在基准数据集上展示了拟议的规模不变技术的有效性.

    结论:

    • 统一的缩放对精确解释缩小尺寸质量指标构成挑战.
    • 引入的规模不变技术为评估投影忠实性提供了可靠的解决方案.
    • 这一进步提高了复杂,高维的数据可视化技术的评估.