subcavitating craft

简明释义

亚空泡水翼船

英英释义

A subcavitating craft refers to a type of vehicle, typically a watercraft or an aircraft, that operates below the cavitation threshold, meaning it does not create vapor bubbles in the fluid it moves through, allowing for more efficient movement and reduced drag.

subcavitating craft 指的是一种通常在水中或空气中运行的交通工具,它在低于气蚀阈值的条件下运作,这意味着它不会在其移动的流体中产生蒸汽泡,从而实现更高效的运动和减少阻力。

例句

1.The new design of the subcavitating craft allows for faster speeds in underwater exploration.

新设计的非空化飞行器使得水下探索的速度更快。

2.Engineers are testing the efficiency of the subcavitating craft in various water conditions.

工程师们正在测试非空化飞行器在不同水域条件下的效率。

3.Researchers have published a paper on the hydrodynamics of subcavitating craft.

研究人员发表了一篇关于非空化飞行器水动力学的论文。

4.The prototype of the subcavitating craft showed promising results during trials.

非空化飞行器的原型在试验中显示出了良好的结果。

5.The military is interested in developing subcavitating craft for stealth operations.

军方对开发非空化飞行器用于隐秘行动很感兴趣。

作文

The concept of a subcavitating craft is an intriguing one, particularly in the realm of marine engineering and naval architecture. A subcavitating craft refers to a type of vessel that operates below the threshold of cavitation, a phenomenon where vapor bubbles form in a liquid due to pressure changes, which can lead to significant damage to the craft's structure and performance. Understanding this concept is essential for designing vessels that are efficient, durable, and capable of high-speed operations in various aquatic environments.Cavitation occurs when the pressure in a fluid drops below its vapor pressure, causing bubbles to form. When these bubbles collapse, they can create shock waves that erode materials, leading to what is known as cavitation damage. This is particularly problematic for high-speed boats and submarines, where the forces at play can be extreme. Therefore, engineers strive to design subcavitating crafts that can maintain operational efficiency without entering the cavitation zone.One of the key advantages of a subcavitating craft is its ability to travel at higher speeds with reduced drag. By carefully designing the hull shape and optimizing the propulsion system, these vessels can achieve remarkable performance without the adverse effects associated with cavitation. This is particularly beneficial for military applications, where speed and stealth are crucial. For instance, naval forces often seek to develop subcavitating crafts that can evade detection while moving quickly through water, thereby enhancing their tactical capabilities.Moreover, the development of advanced materials and technologies has played a significant role in the evolution of subcavitating crafts. Innovations such as composite materials, advanced coatings, and sophisticated hydrodynamic designs have enabled engineers to push the boundaries of what is possible in vessel design. As a result, we are witnessing the emergence of new classes of ships and submarines that can operate efficiently in a variety of conditions while minimizing the risks associated with cavitation.In addition to military uses, subcavitating crafts have potential applications in commercial shipping and recreational boating. The quest for fuel efficiency and sustainability has led many companies to invest in research and development aimed at creating vessels that can travel faster while consuming less fuel. By understanding the principles behind subcavitating crafts, designers can create boats that not only meet the demands of modern consumers but also adhere to environmental regulations.Furthermore, the study of subcavitating crafts opens up avenues for further research into fluid dynamics and hydrodynamics. Engineers and scientists continue to explore how different shapes and sizes of vessels interact with water, seeking to optimize performance and reduce energy consumption. This ongoing research is vital as it contributes to our understanding of how to design more efficient vessels that can operate safely and effectively in our oceans and waterways.In conclusion, the term subcavitating craft encapsulates a fascinating area of study within marine engineering. As we continue to innovate and improve our understanding of fluid dynamics, the potential for subcavitating crafts to revolutionize both military and civilian maritime operations becomes ever more apparent. With advancements in technology and materials, the future of subcavitating crafts looks promising, paving the way for faster, safer, and more efficient vessels that can navigate our waters with ease.

subcavitating craft”这个概念在海洋工程和船舶设计领域中是一个引人入胜的主题。“subcavitating craft”指的是一种在气蚀阈值以下运行的船只,气蚀是一种由于压力变化导致液体中形成气泡的现象,这可能会对船只的结构和性能造成重大损害。理解这一概念对于设计高效、耐用且能够在各种水域中高速运行的船只至关重要。气蚀发生在流体中的压力低于其蒸汽压力时,导致气泡形成。当这些气泡崩溃时,会产生冲击波,侵蚀材料,导致所谓的气蚀损伤。这对高速船只和潜艇尤其成问题,因为作用力可能极为强大。因此,工程师努力设计“subcavitating craft”,以便在不进入气蚀区的情况下保持操作效率。“subcavitating craft”的一个主要优势是它能够以更高的速度行驶并减少阻力。通过精心设计船体形状和优化推进系统,这些船只可以在没有气蚀相关的不利影响的情况下实现显著的性能。这对军事应用尤其有利,速度和隐蔽性至关重要。例如,海军力量通常寻求开发能够快速穿过水面并避开探测的“subcavitating craft”,从而增强其战术能力。此外,先进材料和技术的发展在“subcavitating craft”的演变中发挥了重要作用。复合材料、先进涂层和复杂的水动力设计等创新,使工程师能够突破船舶设计的可能性界限。因此,我们见证了新型舰船和潜艇的出现,这些船只能够在多种条件下高效运行,同时最大限度地降低气蚀的风险。除了军事用途,“subcavitating craft”在商业航运和娱乐船舶中也有潜在应用。对燃油效率和可持续性的追求使许多公司投资于研发,旨在创造能够更快航行并消耗更少燃料的船只。通过理解“subcavitating craft”背后的原理,设计师可以制造出不仅满足现代消费者需求,而且符合环境法规的船只。此外,研究“subcavitating craft”为流体动力学和水动力学的进一步研究打开了新的途径。工程师和科学家们继续探索不同形状和大小的船只如何与水相互作用,寻求优化性能和减少能耗。这项持续的研究至关重要,因为它有助于我们理解如何设计更高效的船只,使其能够安全有效地在我们的海洋和水道中运行。总之,“subcavitating craft”这个术语概括了海洋工程中的一个迷人研究领域。随着我们不断创新并改善对流体动力学的理解,“subcavitating craft”在军事和民用海事操作中革命化的潜力变得愈加明显。随着技术和材料的进步,“subcavitating craft”的未来看起来前景光明,为能够轻松航行我们水域的更快、更安全和更高效的船只铺平了道路。