circumferential pressure

简明释义

切线压力

英英释义

例句

1.The circumferential pressure 周向压力 on the tank walls was monitored continuously to prevent failure.

对储罐壁的周向压力进行了持续监测，以防止故障。

2.The engineer calculated the circumferential pressure 周向压力 in the pipe to ensure it can withstand high fluid flow.

工程师计算了管道中的周向压力以确保它能承受高流量的液体。

3.In the analysis, we found that the circumferential pressure 周向压力 exceeded the design limits.

在分析中，我们发现周向压力超过了设计限制。

4.Understanding the circumferential pressure 周向压力 is crucial for designing safe pipelines.

了解周向压力对于设计安全的管道至关重要。

5.During the test, we measured the circumferential pressure 周向压力 around the vessel to assess its structural integrity.

在测试过程中，我们测量了容器周围的周向压力以评估其结构完整性。

作文

The concept of circumferential pressure is vital in various fields, particularly in engineering and physics. It refers to the pressure exerted in a direction tangential to a circular path or surface. Understanding this concept is essential for designing structures that can withstand forces acting upon them, especially in cylindrical objects such as pipes, tanks, and even biological systems like blood vessels.In engineering, circumferential pressure plays a crucial role in the design and analysis of pressurized vessels. For example, when a gas or liquid is contained within a cylindrical tank, the internal pressure creates a force that acts on the walls of the tank. This force is not uniform; it varies depending on the radius of the tank and the amount of pressure inside. Engineers must calculate the circumferential pressure to ensure that the materials used can withstand these forces without failing.Moreover, the concept of circumferential pressure is also significant in the field of biomechanics. In the human body, blood vessels are subjected to varying pressures as blood circulates through them. The circumferential pressure within these vessels can affect their elasticity and overall health. For instance, high blood pressure can lead to increased circumferential pressure, which may cause the blood vessels to weaken over time, potentially leading to serious health issues such as aneurysms.Furthermore, understanding circumferential pressure can aid in the development of medical devices. For example, stents used to treat narrowed arteries must be designed to account for the circumferential pressure exerted by the surrounding tissue and blood flow. If the stent cannot withstand this pressure, it may fail, leading to complications for the patient.In addition to engineering and medicine, circumferential pressure is also relevant in the context of natural phenomena. For example, when studying geological formations, scientists consider the circumferential pressure exerted by surrounding rocks on underground water reservoirs. This pressure can influence the movement of groundwater and the stability of the surrounding earth.In conclusion, circumferential pressure is a fundamental concept that spans multiple disciplines. Its implications are far-reaching, affecting everything from the safety of engineering structures to the health of biological systems. By understanding and calculating circumferential pressure, professionals in various fields can make informed decisions that enhance safety, efficiency, and effectiveness in their respective areas of expertise. As we continue to explore the intricacies of pressure in both man-made and natural systems, the significance of circumferential pressure will undoubtedly remain a critical focus of study and application.

“周向压力”这一概念在多个领域中至关重要，尤其是在工程和物理学中。它指的是沿着圆形路径或表面切向施加的压力。理解这一概念对于设计能够承受作用于其上的力的结构至关重要，特别是在管道、储罐以及生物系统（如血管）等圆柱形物体中。在工程学中，“周向压力”在压力容器的设计和分析中发挥着关键作用。例如，当气体或液体被封闭在圆柱形储罐中时，内部压力会在储罐的壁上产生一个作用力。这个力并不是均匀的；它根据储罐的半径和内部压力的大小而变化。工程师必须计算“周向压力”，以确保所使用的材料能够承受这些力而不发生失效。此外，“周向压力”在生物力学领域也具有重要意义。在人体内，血管在血液循环过程中受到不同的压力。“周向压力”可能影响血管的弹性和整体健康。例如，高血压可能导致“周向压力”的增加，这可能导致血管随时间变弱，最终引发严重的健康问题，如动脉瘤。进一步说，理解“周向压力”有助于医疗设备的发展。例如，用于治疗狭窄动脉的支架必须设计得能承受周围组织和血流施加的“周向压力”。如果支架无法承受这种压力，它可能会失效，导致患者出现并发症。除了工程和医学，“周向压力”在自然现象的研究中也很相关。例如，在研究地质构造时，科学家考虑周围岩石对地下水库施加的“周向压力”。这种压力会影响地下水的运动以及周围土壤的稳定性。总之，“周向压力”是一个跨越多个学科的基本概念。它的影响深远，涉及从工程结构的安全性到生物系统的健康等各个方面。通过理解和计算“周向压力”，各领域的专业人士可以做出明智的决策，从而提高其各自领域的安全性、效率和有效性。随着我们继续探索人造和自然系统中压力的复杂性，“周向压力”的重要性无疑将继续成为研究和应用的重点。