tube wall

简明释义

管壁

英英释义

例句

1.The integrity of the tube wall 管壁 is crucial for maintaining pressure in the system.

系统中压力的维持依赖于管壁的完整性。

2.Corrosion can significantly weaken the tube wall 管壁, leading to failures.

腐蚀会显著削弱管壁，导致故障。

3.We need to measure the tube wall 管壁 thickness to ensure it meets safety standards.

我们需要测量管壁的厚度，以确保其符合安全标准。

4.During the inspection, we found a crack in the tube wall 管壁 that needs immediate repair.

在检查过程中，我们发现管壁有一个裂缝，需要立即修理。

5.The thickness of the tube wall 管壁 affects the overall strength of the structure.

管壁的厚度影响结构的整体强度。

作文

The concept of the tube wall is essential in various engineering and scientific applications. A tube wall refers to the structural boundary of a cylindrical object, which can be found in many contexts ranging from plumbing systems to aerospace engineering. Understanding the properties and functions of the tube wall can greatly enhance our ability to design and utilize these structures effectively.In engineering, the tube wall plays a crucial role in determining the overall strength and durability of a tube. For instance, in the oil and gas industry, pipes are often constructed with thick tube walls to withstand high pressures and corrosive environments. The thickness and material of the tube wall directly influence its ability to contain fluids without leaking or bursting under stress. This is why engineers must carefully select materials based on the specific requirements of the application, considering factors such as temperature, pressure, and chemical exposure.Moreover, the design of the tube wall is not only about strength but also about efficiency. In applications like heat exchangers, the tube wall must facilitate optimal heat transfer while minimizing energy loss. Engineers often use advanced materials and coatings to enhance the thermal conductivity of the tube wall, allowing for more efficient energy exchange processes.Another important aspect of the tube wall is its impact on fluid dynamics. The geometry of the tube wall, including its roughness and diameter, can significantly affect the flow characteristics of liquids and gases passing through it. For example, a smooth tube wall reduces frictional resistance, enabling smoother flow and lower energy consumption. On the other hand, a rough tube wall may create turbulence, which can be beneficial in certain mixing processes but detrimental in others.In the realm of biomedical engineering, the tube wall takes on a different significance. Medical devices such as catheters and stents rely on the integrity of their tube walls to function correctly within the human body. The materials used for these tube walls must be biocompatible, meaning they do not provoke an adverse reaction when implanted. Additionally, the tube wall must be flexible enough to navigate through the body's complex anatomy while still providing the necessary support and functionality.In conclusion, the tube wall is a fundamental component across various fields, influencing everything from structural integrity to fluid dynamics and biocompatibility. Understanding the properties and implications of the tube wall allows engineers and scientists to innovate and improve designs, ultimately leading to advancements in technology and medicine. As we continue to explore new materials and techniques, the importance of the tube wall will undoubtedly remain a central focus in engineering and scientific research.

“管壁”的概念在各种工程和科学应用中至关重要。“管壁”是指圆柱形物体的结构边界，广泛存在于从管道系统到航空航天工程的许多上下文中。理解“管壁”的特性和功能可以大大增强我们有效设计和利用这些结构的能力。在工程领域，“管壁”在决定管道的整体强度和耐用性方面发挥着关键作用。例如，在石油和天然气行业，管道通常采用厚“管壁”构造，以承受高压和腐蚀环境。“管壁”的厚度和材料直接影响其在压力下保持液体而不泄漏或爆裂的能力。这就是为什么工程师必须根据应用的具体要求仔细选择材料，考虑温度、压力和化学暴露等因素。此外，“管壁”的设计不仅关乎强度，还关乎效率。在热交换器等应用中，“管壁”必须促进最佳的热传递，同时最小化能量损失。工程师通常使用先进的材料和涂层来增强“管壁”的热导率，从而允许更高效的能量交换过程。“管壁”的另一个重要方面是其对流体动力学的影响。“管壁”的几何形状，包括粗糙度和直径，可以显著影响通过它的液体和气体的流动特性。例如，光滑的“管壁”减少了摩擦阻力，使流动更加顺畅，降低了能耗。另一方面，粗糙的“管壁”可能会产生湍流，这在某些混合过程中可能是有益的，但在其他情况下却是有害的。在生物医学工程领域，“管壁”具有不同的重要性。医疗设备如导管和支架依赖其“管壁”的完整性，在人体内正常工作。这些“管壁”所用的材料必须是生物相容的，意味着它们在植入时不会引发不良反应。此外，“管壁”必须足够灵活，以便在复杂的身体解剖中导航，同时仍然提供必要的支持和功能。总之，“管壁”是各个领域的基本组成部分，影响从结构完整性到流体动力学和生物相容性的一切。理解“管壁”的特性和影响使工程师和科学家能够创新和改进设计，最终推动技术和医学的进步。随着我们继续探索新材料和技术，“管壁”的重要性无疑将继续成为工程和科学研究的中心焦点。