helically wound

简明释义

螺旋绕组

英英释义

例句

1.The spring in this mechanical watch is made of a helically wound 螺旋缠绕的 steel that provides precision timekeeping.

这款机械手表中的弹簧由一种螺旋缠绕的helically wound钢材制成，确保了精确的计时。

2.The helically wound 螺旋缠绕的 tubing allows for better heat distribution in the heating system.

这种螺旋缠绕的helically wound管道使加热系统中的热量分布更均匀。

3.The helically wound 螺旋缠绕的 coil in the transformer helps to improve its efficiency.

变压器中的螺旋缠绕的helically wound线圈有助于提高其效率。

4.For optimal performance, the antenna was designed with a helically wound 螺旋缠绕的 configuration.

为了获得最佳性能，天线采用了螺旋缠绕的helically wound配置。

5.In the design of the new cable, engineers opted for a helically wound 螺旋缠绕的 structure to enhance flexibility.

在新电缆的设计中，工程师选择了螺旋缠绕的helically wound结构，以增强灵活性。

作文

The concept of being helically wound is often associated with various fields, including physics, engineering, and even biology. To understand this term, we must first break it down. The word 'helical' refers to something that resembles a helix, which is a three-dimensional spiral shape. When we say that an object is helically wound, we imply that it has been wrapped or coiled in a manner that follows this spiral pattern. This characteristic can be observed in many natural and man-made structures, such as springs, DNA strands, and certain types of cables.In the realm of engineering, helically wound components are essential for creating devices that require flexibility and strength. For instance, helical springs are widely used in machinery to absorb shock and maintain tension. These springs are designed to compress and expand while maintaining their structural integrity, thanks to their unique winding pattern. The helically wound design allows for a greater load-bearing capacity compared to other shapes, making it a popular choice for various applications.Moreover, in the field of telecommunications, cables that are helically wound play a crucial role in transmitting signals over long distances. The helical structure helps to reduce interference and enhance the performance of the cable. By wrapping the wires in a spiral manner, engineers can ensure that the electromagnetic fields generated by the wires do not disrupt each other, thus improving the overall efficiency of data transmission.Biologically, the concept of helically wound structures can be seen in the double helix formation of DNA. The two strands of DNA are coiled around each other in a helical shape, allowing for the storage of genetic information in a compact form. This remarkable structure is fundamental to life, as it enables the replication and expression of genes. Understanding the helically wound nature of DNA has paved the way for advancements in genetics and biotechnology, leading to innovations such as gene editing and personalized medicine.Furthermore, the aesthetic appeal of helically wound designs can be appreciated in art and architecture. Many artists and architects draw inspiration from the elegance of spirals and helices, incorporating these forms into their work. The beauty of a helically wound staircase or sculpture lies in its dynamic shape, which can evoke a sense of movement and fluidity. Such designs not only captivate the eye but also challenge traditional notions of symmetry and balance.In conclusion, the term helically wound encompasses a broad range of applications across various disciplines. Whether in engineering, biology, or art, the helical structure serves important functions that contribute to both practicality and aesthetics. By exploring the implications of helically wound designs, we can gain a deeper appreciation for the interconnectedness of different fields and the natural world. This understanding encourages innovation and creativity, inspiring us to think outside the box and explore new possibilities in our endeavors.

“螺旋缠绕”这一概念通常与物理学、工程学甚至生物学等多个领域相关。要理解这个术语，我们首先需要将其拆分。‘螺旋’这个词指的是类似于螺旋体的东西，这是一种三维的螺旋形状。当我们说一个物体是螺旋缠绕时，我们暗示它以一种遵循这种螺旋模式的方式被包裹或缠绕。这种特征可以在许多自然和人造结构中观察到，例如弹簧、DNA链以及某些类型的电缆。在工程领域，螺旋缠绕的组件对于创建需要灵活性和强度的设备至关重要。例如，螺旋弹簧广泛用于机械中，以吸收冲击并保持张力。这些弹簧被设计为在保持结构完整性的同时压缩和扩展，这得益于它们独特的缠绕模式。螺旋缠绕的设计使其承载能力相比其他形状更大，因此成为各种应用的热门选择。此外，在电信领域，螺旋缠绕的电缆在长距离传输信号方面发挥着至关重要的作用。螺旋结构有助于减少干扰并增强电缆的性能。通过以螺旋方式缠绕电线，工程师可以确保电线产生的电磁场不会相互干扰，从而提高数据传输的整体效率。在生物学上，螺旋缠绕结构的概念可以在DNA的双螺旋结构中看到。DNA的两条链缠绕在一起形成螺旋形，允许以紧凑的形式存储遗传信息。这种非凡的结构是生命的基础，因为它使基因的复制和表达成为可能。理解螺旋缠绕的DNA性质为遗传学和生物技术的进步铺平了道路，导致基因编辑和个性化医学等创新。此外，螺旋缠绕设计的美学吸引力在艺术和建筑中也能得到欣赏。许多艺术家和建筑师从螺旋和螺旋体的优雅中汲取灵感，将这些形式融入他们的作品中。螺旋缠绕的楼梯或雕塑的美在于其动态形状，可以唤起运动和流动感。这种设计不仅吸引眼球，还挑战传统的对称和平衡观念。总之，螺旋缠绕一词涵盖了各个学科的广泛应用。无论是在工程、生物学还是艺术中，螺旋结构都发挥着重要作用，为实用性和美学贡献力量。通过探索螺旋缠绕设计的含义，我们可以更深入地欣赏不同领域和自然世界之间的相互联系。这种理解鼓励创新和创造力，激励我们跳出框框，探索新可能性。