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相关概念视频

General External Flow Characteristics01:26

General External Flow Characteristics

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The study of external flow is essential for creating structures and objects that interact efficiently and safely with moving fluids, such as air or water. When a body is immersed in a flowing fluid, it experiences two primary forces: drag, which opposes motion along the flow direction, and lift, which acts perpendicular to the flow. The shape, size, and orientation of the object influence these forces.Streamlined and Blunt Bodies in External FlowObjects in fluid flow are classified as...
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Design of Transmission Shafts01:16

Design of Transmission Shafts

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The design of a transmission shaft is governed by two primary specifications: the power it transmits and its rotational speed. These parameters guide the selection of the shaft's material and cross-sectional dimensions, ensuring that the material's maximum shearing stress remains within the elastic limit while transmitting the desired power at the given speed. The system's power is intrinsically linked to the applied torque. The torque applied to the shaft can be calculated by...
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Design Example: Deciding Thickness of Lubricating Fluid in a Shaft01:23

Design Example: Deciding Thickness of Lubricating Fluid in a Shaft

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Effective lubrication between a rotating shaft and its bearing housing is essential in rotating machinery to minimize friction, wear, and energy loss. With carefully controlled thickness and viscosity, the lubricant layer prevents metal-to-metal contact, ensuring smooth operation.
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Rocket Propulsion in Gravitational Field - II01:03

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A rocket's velocity in the presence of a gravitational field is decreased by the amount of force exerted by Earth's gravitational field, which opposes the motion of the rocket. If we consider thrust, that is, the force exerted on a rocket by the exhaust gases, then a rocket's thrust is greater in outer space than in the atmosphere or on a launch pad. In fact, gases are easier to expel in a vacuum.
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Design of Transmission Shafts - Stress Analysis01:15

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Designing a transmission shaft requires a thorough understanding of the stresses induced by bending moments and torques, especially in systems where power is transferred through gears. These forces create force-couple systems at the centers of the shaft's cross-sections, leading to both transverse and torsional loading. Although shearing stresses from transverse loads are typically smaller than those from torques and are often overlooked, the significant normal stresses from these loads...
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Rockets range in size from small fireworks that ordinary people use to the enormous Saturn V that once propelled massive payloads toward the Moon. The propulsion of all rockets, jet engines, deflating balloons, and even squids and octopuses are explained by the same physical principle: Newton's third law of motion. The matter is forcefully ejected from a system, producing an equal and opposite reaction on what remains.
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Optimization, Test and Diagnostics of Miniaturized Hall Thrusters
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用于超音速的材料设计.

Adam B Peters1, Dajie Zhang2, Samuel Chen3

  • 1Department of Materials Science and Engineering, Johns Hopkins University, Baltimore, MD, 21218, USA. apeter57@alumni.jh.edu.

Nature communications
|April 18, 2024
PubMed
概括
此摘要是机器生成的。

开发耐火合金和复合材料等先进材料对于高超音速飞行器承受极端飞行条件至关重要,为太空进入和旅行提供了新的可能性.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 航空航天工程 航空航天工程
  • 热力学是一种热力学.

背景情况:

  • 超音速飞行,超过马赫5,提出了极端的气热挑战.
  • 当前的材料很难承受这些恶劣的条件.
  • 超音速车辆为快速进入太空,防御和地球对地球旅行提供了潜力.

研究的目的:

  • 为解决对高超音速车辆弹性材料的需求.
  • 概述关键车辆部件的设计原则.
  • 从实验室概念中详细描述开发飞行准备材料的策略.

主要方法:

  • 审查主要结构,热保护和推进的关键设计原则.
  • 检查理论和计算建模的作用.
  • 研究将实验室材料缩放为可制造组件的方法.

主要成果:

  • 确定高超音速车辆组件的关键设计考虑因素.
  • 强调理论,计算和实验的整合.
  • 推进材料从研究到飞行应用的框架.

结论:

  • 开发先进的耐火合金,复合材料和陶对于高超音速车辆的可行性至关重要.
  • 需要一种多学科的方法,结合设计,理论,计算和制造.
  • 成功的材料开发将释放高超音速技术在各种应用中的潜力.