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相关概念视频

Impact Loading01:19

Impact Loading

705
Impact loading occurs when a moving object collides with a stationary structure, such as a rod with a uniform cross-sectional area fixed at one end. Under these conditions, the rod absorbs the kinetic energy from the striking object, leading to deformation and subsequent stress development. As the rod returns to its original position and reaches maximum stress, the absorbed energy, initially manifested as kinetic energy, transforms entirely into strain energy.
In cases of elastic deformation,...
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Impact Loading on a Cantilever Beam01:13

Impact Loading on a Cantilever Beam

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The analysis of a cantilever beam with a circular cross-section subjected to impact loading at its free end illustrates the conversion of potential energy from a dropped object into kinetic energy, which is then absorbed by the beam as strain energy. This process is crucial for understanding how materials behave under dynamic loads, which is important in fields such as construction and aerospace.
When an object is dropped onto the free end of a cantilever, its potential energy due to gravity is...
900
Stresses under Combined Loadings01:23

Stresses under Combined Loadings

484
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...
484
Habitat Fragmentation02:31

Habitat Fragmentation

21.4K
Habitat fragmentation describes the division of a more extensive, continuous habitat into smaller, discontinuous areas. Human activities such as land conversion, as well as slower geological processes leading to changes in the physical environment, are the two leading causes of habitat fragmentation. The fragmentation process typically follows the same steps: perforation, dissection, fragmentation, shrinkage, and attrition.
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Projectile Motion: Example01:18

Projectile Motion: Example

13.1K
The theory of projectile motion is very useful for players of several sports to improve their performance. For example, a javelin thrower needs to throw their javelin in such a way that it travels as far as possible. The javelin thrower takes a short run-up to increase the initial speed of the javelin. The range of a projectile is at its maximum at a 45° angle so javelin throwers try to angle their throw as close to 45° as possible.
When we speak of the range (R) of a projectile on...
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Motion of a Projectile01:23

Motion of a Projectile

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Projectile motion becomes evident when a player kicks the ball into the air. The launch angle, or the angle at which the ball is kicked, plays a crucial role in determining the trajectory of the projectile. As the ball soars through the air, influenced solely by gravity, its motion can be dissected into two independent velocity components: the horizontal and the vertical.
Horizontal motion, governed by the initial kick, maintains a constant velocity throughout the flight of the soccer ball.
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A Method for Studying the Temperature Dependence of Dynamic Fracture and Fragmentation
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使用渐变泡复合弹子定制组合冲击负荷,具有可变碎片形状的弹子.

Pei Jiang1, Chenxi Wu1, Xinyi Wang1

  • 1Hubei Province Key Laboratory of Systems Science in Metallurgical Process, College of Science, Wuhan University of Science and Technology, Wuhan, 430065, China.

Scientific reports
|February 4, 2026
PubMed
概括

这项研究引入了带有各种碎片形状的梯度复合弹子,以更好地模拟爆炸性冲击. 结果揭示了碎片几何和泡密度如何影响保护系统损伤,有助于改进设计.

关键词:
复合弹子是一种复合弹子.一个碎片的碎片.梯度 梯度是一种梯度.金属泡是一种金属泡.冲击波是一种冲击波.

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科学领域:

  • 机械工程 机械工程
  • 材料科学 材料科学 材料科学
  • 影响力动态的影响力动态

背景情况:

  • 保护系统面临着由冲击波和高速碎片组合带来的挑战.
  • 现有的实验方法缺乏对碎片几何和泡密度对损伤影响的系统分析.
  • 需要先进的弹头设计来模拟复杂的爆炸性装载场景.

研究的目的:

  • 研究爆炸性冲击波和高速碎片组合的协同损伤机制.
  • 分析复合弹头设计,特别是碎片形状和梯度泡密度对结构完整性的影响.
  • 开发和验证有限元模型来模拟这些复杂的撞击事件.

主要方法:

  • 开发新型复合弹子,使用渐变泡和各种刚性碎片形状 (圆柱形,半球形,截断的形).
  • 与实验数据相比,创建和验证有限元模型.
  • 对碎片形状,嵌入深度,加载顺序和泡密度梯度影响的系统分析.

主要成果:

  • 碎片几何学显著改变了目标板中的应力分布和故障模式.
  • 半球碎片导致集中应力和早期透,减少了联合负载效应.
  • 梯度泡密度控制接触力配置文件,更密的前端产生更高的初始力和更短的持续时间.

结论:

  • 梯度复合弹子提供了一个更现实的模拟爆炸性装载条件.
  • 了解碎片形状和泡密度效应对于优化射弹设计至关重要.
  • 结果为提高保护系统的抗冲击能力提供了洞察力.