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相关概念视频

Elastic Strain Energy for Shearing Stresses01:20

Elastic Strain Energy for Shearing Stresses

137
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...
137
Deformation of Member under Multiple Loadings01:11

Deformation of Member under Multiple Loadings

130
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...
130
Stresses under Combined Loadings01:23

Stresses under Combined Loadings

132
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...
132
Residual Stresses01:26

Residual Stresses

189
Residual stresses reside in a structure even after removing the original stress inducer. This phenomenon often arises from varied plastic deformations across different parts of a structure. Consider a rod stretched beyond its yield point. It will not regain its original length due to permanent deformation. Even after load removal, the rod does not entirely lose stress because of uneven plastic deformations, resulting in residual stresses. The computation of these stresses in structures is...
189
Elastic Strain Energy for Normal Stresses01:22

Elastic Strain Energy for Normal Stresses

121
Strain energy quantifies the energy stored within a material due to deformation under loading conditions, a fundamental concept in materials science and engineering. The strain energy can be modeled when a material is subjected to axial loading with uniformly distributed stress. In this scenario, the stress experienced by the material is the internal force divided by the cross-sectional area, and the strain induced is directly proportional to this stress through the modulus of elasticity.
If...
121
Normal Strain under Axial Loading01:20

Normal Strain under Axial Loading

409
Normal strain under axial loading is an important concept in the field of mechanics of materials. Axial loading implies the application of a force along the axis of a material, like a column or bar. This force can either compress or stretch the material. In the context of axial loading, normal strain is the deformation experienced by the material in the direction of the loading force. It's calculated as the change in length divided by the original length of the material. This unitless ratio...
409

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Cutting Procedures, Tensile Testing, and Ageing of Flexible Unidirectional Composite Laminates
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在复合材料中使用遗传算法和非局部平均的连续压缩损伤建模.

Johannes Reiner1, Yun-Fei Fu2

  • 1School of Engineering, Faculty of Science Engineering and Built Environment, Deakin University, Geelong, VIC 3216, Australia.

Polymers
|April 12, 2025
PubMed
概括

本研究介绍了基因算法 (GA) 和非局部连续损伤模型,以改进纤维增强聚合物 (FRP) 的有限元分析. 这些方法克服了网格依赖性和参数校准问题,以准确地进行渐进式损坏模拟.

科学领域:

  • 材料科学 材料科学 材料科学
  • 计算力学 计算力学 计算力学
  • 聚合物工程 聚合物工程

背景情况:

  • 连续损伤模型被广泛用于分析纤维增强聚合物 (FRP),因为它们的效率.
  • 现有的模型存在网格大小/导向依赖性和参数确定难度.

研究的目的:

  • 解决FRP中渐进性损伤的连续建模中的局限性.
  • 开发一个可靠的方法进行参数校准和网格独立的损坏演变.

主要方法:

  • 结合基因算法 (GA) 与非局部连续损伤模型.
  • 用于客观输入参数校准的应用GA.
  • 使用非局部平均值来进行一致的应变场计算.

主要成果:

  • 使用GA.成功校准了非局部损害模型的输入参数.
  • 在FRP模拟中证明了网格独立的损伤演变.
  • 在IM7/8552复合材料上使用紧和开孔压缩试验验证了该方法.

结论:

  • 用GA增强的非局部连续损伤模型克服了网格依赖性和参数不确定性.
关键词:
连续损伤力学 连续损伤力学有限元分析是有限元分析.遗传算法是一种遗传算法.渐进的损伤是渐进的损伤.

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  • 与本地模型相比,这种方法为模拟FRP逐渐损坏提供了更可靠和更一致的方法.