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相关概念视频

Relation between Poisson's ratio, Modulus of Elasticity and Modulus of Rigidity01:15

Relation between Poisson's ratio, Modulus of Elasticity and Modulus of Rigidity

233
Deformation occurs in axial and transverse directions when an axial load is applied to a slender bar. This deformation impacts the cubic element within the bar, transforming it into either a rectangular parallelepiped or a rhombus, contingent on its orientation. This transformation process induces shearing strain. Axial loading elicits both shearing and normal strains. Applying an axial load instigates equal normal and shearing stresses on elements oriented at a 45° angle to the load axis.
233
Poisson's Ratio01:23

Poisson's Ratio

344
Poisson's ratio is a material property that indicates their stress response. It explains the connection between the elongation or compression a material undergoes in the direction of an applied force and the contraction or expansion it experiences perpendicular to that force. When a slender bar is loaded axially, it stretches in the direction of the force and contracts laterally. Poisson's ratio is the negative ratio of this lateral contraction to the axial elongation. The negative sign...
344
Elastic Curve from the Load Distribution01:16

Elastic Curve from the Load Distribution

151
The structural behavior of beams under distributed loads is critical for engineering analysis, which focuses on predicting how beams bend and react under such conditions. Different types of beams (e.g., cantilever, supported, or overhanging) behave differently under distributed load conditions.
For all beams, the analysis of the beam's reaction to distributed loads begins by understanding the relationship between a beam's load and the resulting shear forces and bending moments.
151
Deformations in a Transverse Cross Section01:21

Deformations in a Transverse Cross Section

165
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...
165
Bending of Members Made of Several Materials01:08

Bending of Members Made of Several Materials

134
In analyzing a structural member composed of two different materials with identical cross-sectional areas, it is crucial to understand how their distinct elastic properties affect the member's response under load. The analysis involves assessing stress and strain distributions using the transformed section concept, which accounts for variations in material properties.
Hooke's Law determines stress in each material, stating that stress is proportional to strain but varies due to each...
134
Members Made of Elastoplastic Material01:19

Members Made of Elastoplastic Material

93
The behavior of elastoplastic materials under bending stresses, particularly in structural members with rectangular cross-sections, is crucial for predicting material responses and understanding failure modes. Initially, when a bending moment is applied, the stress distribution across the section follows Hooke's Law and is linear and elastic. This distribution means the stress increases from the neutral axis to the maximum at the outer fibers, up to the elastic limit.
As the bending moment...
93

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Characterizing Dissipative Elastic Metamaterials Produced by Additive Manufacturing
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波纹超材料具有尺度依赖的可形弹性.

Jian Zhou1,2, Richard Huang3, Nicolaie Moldovan1

  • 1Center for Nanoscale Materials, Argonne National Laboratory, Argonne, IL 60439.

Proceedings of the National Academy of Sciences of the United States of America
|March 19, 2025
PubMed
概括
此摘要是机器生成的。

薄膜中的热诱导波纹会产生具有可调节的尺度依赖弹性的元材料. 这一突破使得在先进的应用中可以精确控制机械性能.

关键词:
超材料是指金属材料.响应器 响应器 响应器波纹材料是有波纹的材料.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 机械工程 机械工程
  • 纳米技术 纳米技术

背景情况:

  • 热诱导的波纹是薄膜固有的,影响它们的弹性特性.
  • 之前的研究对波纹弹性是否依赖规模或独立有相互矛盾的理论.
  • 实验的局限性阻碍了对波纹效应的充分理解.

研究的目的:

  • 为了研究静态波纹对薄膜机械性能的影响.
  • 开发一种可扩展的方法,用于制造具有可控波纹的薄膜.
  • 为了展示具有可定制弹性的元材料的创造.

主要方法:

  • 通过半导体制造使用精确控制的冷随机波纹设计了纳米厚的薄膜.
  • 测量了波纹横杆的共振频率.
  • 开发了一个理论模型来预测波纹效应.

主要成果:

  • 静态波纹将薄膜转化为具有尺度依赖的可定制弹性的元材料.
  • 随机波纹重新规范并以规模依赖的方式增强曲刚性.
  • 制造的kirigami架构和具有量身定制属性的机械元材料.

结论:

  • 静态波纹为设计薄膜的机械性能提供了一条途径.
  • 开发的制造工艺和理论模型为设计先进材料提供了一个可扩展的平台.
  • 这项工作促进了薄材料的基本理解和实际应用.