breaking cone

简明释义

破碎圆锥

英英释义

例句

1.The breaking cone 破裂锥 is a key component in the failure analysis of aerospace structures.

在航空结构的故障分析中，破裂锥 breaking cone是一个关键组件。

2.Understanding the mechanics of the breaking cone 破裂锥 is crucial for optimizing performance in manufacturing.

理解破裂锥 breaking cone的机械原理对于优化制造性能至关重要。

3.During the test, the breaking cone 破裂锥 showed signs of wear, indicating the need for maintenance.

在测试过程中，破裂锥 breaking cone显示出磨损迹象，表明需要进行维护。

4.The engineer explained how the breaking cone 破裂锥 helps in the design of safety features for the new vehicle.

工程师解释了如何利用破裂锥 breaking cone来设计新车的安全特性。

5.The team analyzed the breaking cone 破裂锥 to improve the efficiency of the drilling process.

团队分析了破裂锥 breaking cone以提高钻探过程的效率。

作文

In the realm of physics and engineering, the concept of the breaking cone is crucial for understanding how projectiles behave when they exceed the speed of sound. The breaking cone refers to the conical shape that forms in the air around an object as it travels at supersonic speeds. This phenomenon occurs because the object compresses the air in front of it, creating a wave pattern that radiates outward in a cone shape. The angle of this cone is determined by the Mach number, which is a dimensionless quantity representing the ratio of the speed of the object to the speed of sound in the surrounding medium.When an object moves faster than the speed of sound, it creates shock waves that can have significant effects on both the object itself and the environment around it. For example, when a jet aircraft breaks the sound barrier, it produces a sonic boom, which is essentially the sound of the shock waves created by the breaking cone. This phenomenon can be startling for people on the ground and can even cause structural damage to buildings.Understanding the breaking cone is not only important for aerospace engineers but also for various applications in military technology, sports, and even in the design of certain consumer products. For instance, when designing bullets or other projectiles, engineers must consider how the breaking cone will affect accuracy and performance. Similarly, in sports like javelin throwing, athletes aim to optimize their throws to achieve speeds that allow them to take advantage of the aerodynamic benefits associated with the breaking cone.Moreover, the breaking cone has implications for safety as well. In aviation, understanding the breaking cone allows engineers to design aircraft that can safely handle the stresses associated with breaking the sound barrier. It also informs pilots about the potential risks involved in supersonic flight, such as loss of control or structural failure due to the intense pressure changes associated with shock waves.As technology advances, the study of the breaking cone continues to evolve. Researchers are exploring new materials and designs that can withstand the extreme conditions of supersonic travel, leading to innovations in both civilian and military aviation. Additionally, there is ongoing research into how the breaking cone affects environmental factors, such as noise pollution and its impact on wildlife.In conclusion, the breaking cone is a fundamental concept in the study of aerodynamics and supersonic travel. Its implications extend beyond just theoretical physics; they touch upon practical applications in engineering, safety, and environmental considerations. As we continue to push the boundaries of speed and technology, understanding the breaking cone will remain essential for both innovation and safety in our increasingly fast-paced world.

在物理和工程领域，breaking cone的概念对于理解超音速飞行物体的行为至关重要。breaking cone指的是当物体以超音速移动时，在其周围空气中形成的锥形区域。这一现象的发生是因为物体在前方压缩空气，从而形成向外辐射的波纹模式。这个锥的角度由马赫数决定，马赫数是一个无量纲量，表示物体速度与周围介质中声速的比率。当物体的速度超过声速时，会产生冲击波，这对物体本身及其周围环境产生显著影响。例如，当喷气式飞机突破音障时，它会产生音爆，这实际上是由breaking cone所产生的冲击波的声音。这种现象可能会让地面上的人感到震惊，甚至可能对建筑物造成结构性损害。理解breaking cone不仅对航空工程师重要，还适用于军事技术、体育以及某些消费品的设计。例如，在设计子弹或其他弹丸时，工程师必须考虑breaking cone如何影响准确性和性能。同样，在标枪投掷等运动中，运动员旨在优化他们的投掷，以达到能够利用与breaking cone相关的空气动力学优势的速度。此外，breaking cone还与安全性有关。在航空领域，理解breaking cone使工程师能够设计能够安全应对突破音障所带来的压力的飞机。它还告知飞行员关于超音速飞行潜在风险的信息，例如由于与冲击波相关的剧烈压力变化导致的失控或结构故障。随着技术的进步，对breaking cone的研究也在不断发展。研究人员正在探索能够承受超音速旅行极端条件的新材料和设计，从而在民用和军事航空领域带来创新。此外，关于breaking cone如何影响环境因素（如噪音污染及其对野生动物的影响）的研究也在进行中。总之，breaking cone是空气动力学和超音速旅行研究中的基本概念。其影响不仅限于理论物理；它涉及工程、安全和环境考虑的实际应用。随着我们不断推动速度和技术的边界，理解breaking cone将继续对我们日益快速发展的世界中的创新和安全至关重要。