tubular structure

简明释义

管结构

英英释义

例句

1.In biology, many organisms have a tubular structure that helps them transport nutrients efficiently.

在生物学中，许多生物具有一种有助于有效运输养分的管状结构。

2.The research focused on the properties of tubular structures in various engineering applications.

该研究集中于各种工程应用中管状结构的特性。

3.The architect incorporated a tubular structure in the building design to enhance its aesthetic appeal.

建筑师在建筑设计中融入了一个管状结构以增强其美观性。

4.The plant's roots exhibit a tubular structure, allowing for better water absorption.

植物的根部呈现出一种管状结构，从而更好地吸收水分。

5.The engineer designed a new pipeline with a strong tubular structure to withstand high pressure.

工程师设计了一种强大的管状结构的新管道，以承受高压。

作文

The concept of a tubular structure is prevalent in various fields, including biology, engineering, and architecture. A tubular structure refers to any object or system that has a hollow cylindrical shape, which can be found in both natural and man-made forms. In biology, for instance, the human circulatory system can be thought of as a complex network of tubular structures, where blood vessels transport blood throughout the body. The arteries and veins, which are essential for maintaining life, exhibit this tubular structure that allows them to carry fluids efficiently.In engineering, the design of tubular structures plays a crucial role in the construction of buildings and bridges. Engineers often utilize materials like steel or reinforced concrete to create strong yet lightweight tubular structures that can support significant loads while minimizing material use. For example, the iconic Eiffel Tower in Paris features a lattice of tubular structures that not only provide stability but also contribute to its aesthetic appeal. The use of tubular structures in architecture allows for innovative designs that can withstand environmental stresses such as wind and earthquakes.Additionally, the concept of a tubular structure can be observed in everyday objects, such as pipes and tubes used in plumbing and manufacturing processes. These tubular structures are designed to transport liquids and gases from one location to another, highlighting their importance in industrial applications. The efficiency of these systems is largely due to their tubular structure, which minimizes friction and allows for smooth flow.In nature, many organisms exhibit tubular structures as well. For instance, the stems of plants are often tubular, providing support and facilitating the transport of nutrients and water. Similarly, certain marine creatures, like jellyfish, have bodies that resemble tubular structures, allowing them to move through water with ease. This natural occurrence of tubular structures inspires biomimicry in engineering, where designers look to nature for solutions to complex problems.In conclusion, the tubular structure is a fundamental concept that spans multiple disciplines, showcasing its versatility and importance. Whether in biological systems, engineering marvels, or everyday objects, tubular structures play a vital role in functionality and efficiency. Understanding the principles behind tubular structures can lead to advancements in technology, improved designs, and a deeper appreciation for the interconnectedness of natural and artificial systems.

“管状结构”的概念在生物学、工程学和建筑等多个领域中都很常见。“管状结构”指的是任何具有空心圆柱形状的物体或系统，这种结构可以在自然和人造形式中找到。例如，在生物学中，人类的循环系统可以被视为一个复杂的“管状结构”网络，血管在全身运输血液。动脉和静脉是维持生命的重要组成部分，展现出这种“管状结构”，使它们能够高效地运输液体。在工程学中，“管状结构”的设计在建筑和桥梁的建造中发挥着至关重要的作用。工程师们通常利用钢材或钢筋混凝土等材料来创建强大而轻便的“管状结构”，这些结构能够在最小化材料使用的同时承载重大负荷。例如，巴黎的标志性埃菲尔铁塔采用了“管状结构”的格架，不仅提供了稳定性，还增强了其美观。建筑中对“管状结构”的使用使得创新设计能够抵御风和地震等环境压力。此外，日常物品中也可以观察到“管状结构”的概念，比如用于管道和制造过程中的管子。这些“管状结构”旨在将液体和气体从一个地方运输到另一个地方，突显了它们在工业应用中的重要性。这些系统的效率在很大程度上归功于它们的“管状结构”，这种结构使摩擦最小化，从而实现平稳流动。在自然界中，许多生物也表现出“管状结构”。例如，植物的茎通常是管状的，提供支持并促进营养和水分的运输。同样，某些海洋生物，如水母，其身体类似于“管状结构”，使它们能够轻松地在水中移动。这种自然界中“管状结构”的出现激发了工程中的仿生学，设计师们从自然中寻找解决复杂问题的方法。总之，“管状结构”是一个基础概念，跨越多个学科，展示了它的多功能性和重要性。无论是在生物系统、工程奇迹还是日常物品中，“管状结构”在功能性和效率中发挥着至关重要的作用。理解“管状结构”背后的原理可以推动技术进步、改善设计，并加深对自然与人造系统相互联系的欣赏。