airplane strand

简明释义

航空软钢绳;

英英释义

例句

1.Engineers often test the strength of the airplane strand 飞机绳索 before the aircraft's maiden flight.

工程师们通常在飞机首飞之前测试飞机绳索的强度。

2.The maintenance crew found a broken wire in the airplane strand 飞机绳索 during their routine checks.

维修人员在例行检查中发现了飞机绳索中的一根断线。

3.The airplane strand 飞机绳索 is crucial for the stability of the aircraft during flight.

飞机绳索对于飞机在飞行中的稳定性至关重要。

4.If the airplane strand 飞机绳索 is compromised, it can lead to serious safety issues.

如果飞机绳索受到损害，可能会导致严重的安全问题。

5.During turbulence, the pilot made sure that the airplane strand 飞机绳索 was secure to prevent any accidents.

在颠簸期间，飞行员确保飞机绳索安全，以防止任何事故。

作文

In the vast world of aviation, there are numerous terms and phrases that can sometimes confuse both enthusiasts and professionals alike. One such phrase is airplane strand, which refers to a specific aspect of aircraft design and engineering. Understanding this term can provide insights into the complexities of how airplanes are constructed and how they operate in the skies. In this essay, we will explore the meaning of airplane strand and its significance in the field of aeronautics.The term airplane strand can be broken down into two components: 'airplane' and 'strand'. An airplane is a powered flying vehicle with fixed wings and a weight greater than that of the air it displaces. It is designed for the purpose of transporting passengers and cargo across vast distances. On the other hand, a strand typically refers to a single thin length of something, often used in the context of threads or fibers. When combined, airplane strand can refer to the strands of materials used in the construction of an aircraft, such as the composite materials that are increasingly utilized in modern aviation.The use of strands in airplane construction is crucial for several reasons. Firstly, these strands contribute to the overall strength and durability of the aircraft. For instance, carbon fiber strands are known for their high tensile strength and lightweight properties, making them ideal for use in airplane fuselages and wings. The incorporation of such materials allows engineers to design airplanes that are not only more efficient but also safer and more reliable.Moreover, understanding the concept of airplane strand highlights the importance of material science in aviation. Engineers must carefully select the right types of strands to ensure that the airplane can withstand various stresses during flight, including turbulence and changes in pressure. This meticulous attention to detail is what enables modern airplanes to fly at high altitudes and speeds while maintaining structural integrity.Another aspect to consider is the environmental impact of using different strands in airplane manufacturing. As the aviation industry strives to reduce its carbon footprint, there has been a growing emphasis on developing sustainable materials that can replace traditional ones. Innovations in bio-based strands and recyclable composites are being researched and implemented, reflecting a shift towards greener practices in aircraft design.Furthermore, the study of airplane strand extends beyond just the physical materials used. It also encompasses the technological advancements that allow for better integration of these materials into aircraft systems. For example, advancements in computer-aided design (CAD) and simulation technologies enable engineers to visualize how different strands interact under various conditions, leading to more informed decisions during the design process.In conclusion, the term airplane strand encapsulates a vital aspect of aviation that intertwines material science, engineering, and environmental considerations. By understanding this phrase, one gains a deeper appreciation for the intricacies involved in aircraft design and the ongoing innovations that continue to shape the future of aviation. As we look to the skies, it is essential to recognize the significance of every component, including the humble strands that play a pivotal role in keeping us airborne. The exploration of airplane strand not only enriches our knowledge of aviation but also inspires future generations to contribute to this dynamic field of study.

在广阔的航空世界中，有许多术语和短语有时会让爱好者和专业人士感到困惑。其中一个短语是airplane strand，它指的是飞机设计和工程的一个特定方面。理解这个术语可以为我们提供关于飞机如何构造以及如何在天空中操作的复杂性的一些见解。在这篇文章中，我们将探讨airplane strand的含义及其在航空领域的重要性。术语airplane strand可以分为两个部分：‘airplane’和‘strand’。飞机是一种有固定机翼的动力飞行器，其重量大于其排开的空气。它旨在用于在广阔的距离上运输乘客和货物。另一方面，strand通常指的是某物的单根细长部分，常用于线程或纤维的上下文。当两者结合时，airplane strand可以指用于飞机构造的材料的纤维，例如现代航空中日益使用的复合材料。在飞机制造中使用纤维对多个原因至关重要。首先，这些纤维有助于飞机的整体强度和耐用性。例如，碳纤维纤维以其高抗拉强度和轻量特性而闻名，非常适合用于飞机的机身和机翼。这类材料的使用使工程师能够设计出不仅更高效，而且更安全、更可靠的飞机。此外，理解airplane strand的概念突显了材料科学在航空中的重要性。工程师必须仔细选择合适类型的纤维，以确保飞机能够承受飞行过程中各种压力，包括气流和压力变化。这种对细节的严格关注使得现代飞机能够在高空和高速下飞行，同时保持结构的完整性。另一个需要考虑的方面是使用不同纤维在飞机制造中的环境影响。随着航空业努力减少其碳足迹，越来越强调开发可替代传统材料的可持续材料。生物基纤维和可回收复合材料的创新正在被研究和实施，反映出飞机设计中向更环保实践的转变。此外，airplane strand的研究不仅限于物理材料的使用。它还包括技术进步，这些进步允许更好地将这些材料集成到飞机系统中。例如，计算机辅助设计（CAD）和仿真技术的进步使工程师能够可视化不同纤维在各种条件下的相互作用，从而在设计过程中做出更明智的决策。总之，术语airplane strand概括了航空中一个重要的方面，它交织着材料科学、工程和环境考虑。通过理解这个短语，人们对飞机设计中涉及的复杂性有了更深刻的认识，以及不断塑造航空未来的创新。展望天空，认识到每个组件的意义是至关重要的，包括在保持我们飞行中发挥关键作用的谦逊纤维。对airplane strand的探索不仅丰富了我们对航空的知识，也激励着未来的几代人投身于这一动态的研究领域。