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相关概念视频

Stress: General Loading Conditions01:15

Stress: General Loading Conditions

520
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....
520
General State of Stress01:21

General State of Stress

586
The general state of stress within a material can be accurately depicted using a stress tensor. This tensor encapsulates the internal forces distributed within a material subjected to external forces or deformations.
Specifically, consider a tetrahedral element where one face, labeled XYZ, is perpendicular to the line OA, and the remaining faces align with the coordinate axes with point O as the origin. At any point, such as point O, the stress tensor can be used to determine the stress...
586
Stresses under Combined Loadings01:23

Stresses under Combined Loadings

439
When analyzing a bent tube with a circular cross-section subjected to multiple forces, it is crucial to determine the stress distribution in order to maintain structural integrity under varied load conditions.
The process begins by slicing the tube at critical points and analyzing the internal forces and stress components at these sections, focusing on the centroid. Normal stresses, generated by axial forces and bending moments, are either compressive or tensile and vary across the section from...
439
Elastic Strain Energy for Shearing Stresses01:20

Elastic Strain Energy for Shearing Stresses

475
As discussed in previous lessons, strain energy in a material is the energy stored when it is elastically deformed, a concept crucial in materials science and mechanical engineering. This energy results from the internal work done against the cohesive forces within the material. When a material undergoes shearing stress and corresponding shearing strain, the strain energy density, which is the energy stored per unit volume, is calculated. Within the elastic limit, where the stress is...
475
Principal Stresses: Problem Solving01:15

Principal Stresses: Problem Solving

534
When analyzing two planes intersecting at right angles under the influence of shearing, tensile, and compressive stresses, it is essential to identify principal planes, maximum shearing stress, and principal stresses. To find the principal planes, apply a formula that equates them to twice the shearing stress divided by the difference between tensile and compressive stresses.
534
Stress-Strain Diagram - Ductile Materials01:24

Stress-Strain Diagram - Ductile Materials

1.9K
The stress-strain relationship in ductile materials such as structural steel or aluminium is intricate and progresses through several stages. When a specimen is loaded, it initially exhibits a linear length increase, depicted by a steep straight line on the stress-strain diagram. It indicates the material is elastically deforming and will return to its original shape once unloaded. However, when a critical stress value is reached, plastic deformation begins. This stage sees substantial...
1.9K

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相关实验视频

Updated: Jan 12, 2026

Artificial Thermal Ageing of Polyester Reinforced and Polyvinyl Chloride Coated Technical Fabric
07:48

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一个数值集成的流应力处理模型,用于平面织造织复合材料.

Weijia Chen1, Bin Zhang2

  • 1Department of Mechanical Engineering, Suzhou University of Technology, Changshu, 215500, Jiangsu Province, China.

Scientific reports
|October 31, 2025
PubMed
概括

本研究提出了一个数值模型,模拟复合材料制造中的树脂流和制造变形. 该模型准确地预测了剩余应力和弹入角,并通过实验结果验证.

科学领域:

  • 复合材料科学 复合材料科学
  • 制造过程模拟制造过程模拟
  • 计算力学 计算力学 计算力学

背景情况:

  • 复合材料制造涉及复杂的树脂流和固化过程.
  • 这些工艺会导致残余应力和变形,影响最终部件的质量.
  • 精确的模拟对于优化制造周期和预测性能至关重要.

研究的目的:

  • 为复合材料制造开发一个数值集成的流应力处理模型.
  • 模拟树脂流线,制造引起的变形和残余应力.
  • 通过实验数据验证模型的准确性.

主要方法:

  • 模拟干纤维织物作为正极管多孔材料.
  • 使用流体体积 (VOF) 方法对温度和固化依赖粘度的树脂流量进行分析.
  • 采用多物理固化模型,结合材料性质的微力学和残余应力预测的正方体构成定律.

主要成果:

  • 该模型成功模拟了树脂流和填充.
  • 它预测了制造过程引起的变形和残余应力发展.
  • 弹入角的数值预测与实验结果密切匹配.

结论:

关键词:
微机械学的微机械学处理模型的处理模型.剩余压力是剩余的压力.

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  • 拟议的集成流应力处理模型为复合材料制造提供了准确的预测.
  • 该模型有助于理解和减轻制造引起的变形和残余应力.
  • 这种模拟方法对于优化复合材料零件设计和制造非常有价值.