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相关概念视频

Speed of Sound in Solids and Liquids00:51

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Most solids and liquids are incompressible—their densities remain constant throughout. In the presence of an external force, the molecules tend to restore to their original positions, which is only possible because the constituents interact. The interactions help the constituents pass on information about external disturbances, like sound waves. Therefore, sound waves travel faster through these media. Compared to solids, the constituents in a liquid are less tightly bound. Thus, sound...
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Relation between Poisson's ratio, Modulus of Elasticity and Modulus of Rigidity01:15

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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.
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Molecular and Ionic Solids02:54

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Crystalline solids are divided into four types: molecular, ionic, metallic, and covalent network based on the type of constituent units and their interparticle interactions.
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Molecular crystalline solids, such as ice, sucrose (table sugar), and iodine, are solids that are composed of neutral molecules as their constituent units. These molecules are held together by weak intermolecular forces such as London dispersion forces, dipole-dipole interactions, or hydrogen bonds, which...
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Elastic Strain Energy for Shearing Stresses01:20

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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...
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Structures of Solids02:22

Structures of Solids

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Solids in which the atoms, ions, or molecules are arranged in a definite repeating pattern are known as crystalline solids. Metals and ionic compounds typically form ordered, crystalline solids. A crystalline solid has a precise melting temperature because each atom or molecule of the same type is held in place with the same forces or energy. Amorphous solids or non-crystalline solids (or, sometimes, glasses) which lack an ordered internal structure and are randomly arranged. Substances that...
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Dynamic Modulus of Elasticity of Concrete01:16

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The dynamic modulus of elasticity assesses how a concrete structure deforms under impact or dynamic loads. It is typically higher than the static modulus of elasticity, measured under slow, steady loading conditions.
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Characterizing Dissipative Elastic Metamaterials Produced by Additive Manufacturing
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固体-固体音声晶体具有强烈的时间调节弹性成分.

Matthew Li1, Dmitrii Shymkiv1, Ying Wu2

  • 1Department of Physics, University of North Texas, Denton, Texas 76203, USA.

The Journal of the Acoustical Society of America
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PubMed
概括
此摘要是机器生成的。

这项研究引入了由振荡的双材料棒制成的时间调制的音声晶体. 这些结构为声波传播创造了显著的频率,动量和混合带隙.

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科学领域:

  • 声学 声学 在声学上
  • 材料科学 材料科学 材料科学
  • 固体力学 固体力学是什么

背景情况:

  • 声波晶体可以控制波浪的传播.
  • 时间调制为音声结构引入了动态特性.
  • 具有高弹性对比度的异质材料是增强波动操纵的关键.

研究的目的:

  • 提出和分析一种新的时间调节的语音晶体.
  • 研究频率,动量和混合频段间隙的形成.
  • 探索双材料棒和弹性对比对带隙特性的影响.

主要方法:

  • 采用了平面波膨胀方法.
  • 分散关系是从二次自值问题中推导出来的.
  • 分析是在复杂的频率波向量 (ω-k) 空间中进行的.

主要成果:

  • 带结构呈现出不同的频率 (ω) 和动量 (k) 带隙.
  • 叠加的 ω 和 k 带间隙形成混合间隙, ω 和 k 变得虚构.
  • 双材料棒的高弹性对比导致了实质性的调制和大间隙与中间隙的比率.

结论:

  • 提出的时间调节的音声晶体有效地控制了声音波的传播.
  • 该设计通过材料特性和调制,使带隙的可调性显著.
  • 这项工作为设计先进的声学超材料提供了一个框架.