cylinder shell

简明释义

圆筒状壳体

英英释义

例句

1.The cylinder shell was coated with a protective layer to prevent corrosion.

该圆筒壳体涂上了保护层以防止腐蚀。

2.During the inspection, we found a crack in the cylinder shell of the pressure vessel.

在检查过程中，我们发现压力容器的圆筒壳体有裂缝。

3.The engineer designed a new cylinder shell for the hydraulic press.

工程师为液压机设计了一个新的圆筒壳体。

4.The cylinder shell must be made from high-strength materials to withstand extreme pressures.

该圆筒壳体必须由高强度材料制成，以承受极端压力。

5.To improve efficiency, the manufacturer optimized the design of the cylinder shell.

为了提高效率，制造商优化了圆筒壳体的设计。

作文

In the field of engineering and physics, understanding the concept of a cylinder shell is crucial for various applications. A cylinder shell refers to a hollow cylindrical structure that is often used to analyze stresses and strains in materials. This concept is particularly important in mechanical engineering, where the integrity of structures under load is paramount. For instance, when designing pipelines or storage tanks, engineers must consider the forces acting on the cylinder shell to ensure safety and functionality. The cylinder shell can be defined mathematically, allowing engineers to calculate its properties such as volume, surface area, and moment of inertia. These calculations are vital for determining how the cylinder shell will behave under different conditions. The stress distribution within the shell can be analyzed using theories like the thin-walled cylinder theory, which simplifies the complex interactions of forces acting on the structure. One practical application of the cylinder shell is in the construction of pressure vessels. These vessels are designed to hold gases or liquids at high pressures, and the cylinder shell plays a critical role in ensuring that these vessels can withstand the internal forces without failing. Engineers must carefully select materials that can endure these stresses while also considering factors like temperature and corrosion resistance. Another important aspect of the cylinder shell is its role in structural stability. In civil engineering, the cylinder shell is often used in the design of silos, storage tanks, and other structures that require a strong yet lightweight solution. The ability of a cylinder shell to distribute loads evenly makes it an ideal choice for these applications. By taking advantage of the geometric properties of the cylinder, engineers can create structures that are both efficient and effective in their performance. Furthermore, the cylinder shell concept extends beyond traditional engineering fields. In aerospace engineering, for example, the design of rocket bodies often incorporates cylinder shells to optimize aerodynamics and structural integrity during flight. The lightweight nature of these shells contributes to the overall efficiency of the spacecraft, allowing for greater payload capacities and improved fuel efficiency. In conclusion, the cylinder shell is a fundamental concept in various engineering disciplines, providing essential insights into material behavior under stress. Its applications range from pressure vessel design to aerospace engineering, demonstrating its versatility and importance. By mastering the principles surrounding the cylinder shell, engineers can develop safer, more efficient structures that meet the demands of modern technology. Understanding this concept not only enhances engineering practices but also contributes to innovations that shape our world. In summary, the cylinder shell serves as a vital component in the analysis and design of numerous structures, highlighting the interconnectedness of mathematical principles and practical applications in engineering. As we continue to push the boundaries of what is possible in technology, the importance of mastering concepts like the cylinder shell cannot be overstated.

在工程和物理领域，理解“cylinder shell”的概念对于各种应用至关重要。“cylinder shell”指的是一种中空的圆柱形结构，通常用于分析材料中的应力和应变。这个概念在机械工程中尤为重要，因为在负载下结构的完整性至关重要。例如，在设计管道或储罐时，工程师必须考虑作用在“cylinder shell”上的力量，以确保安全和功能性。“cylinder shell”可以通过数学定义，从而允许工程师计算其属性，如体积、表面积和惯性矩。这些计算对于确定“cylinder shell”在不同条件下的行为至关重要。壳体内的应力分布可以使用薄壁圆柱理论等理论进行分析，该理论简化了作用于结构的复杂力的相互作用。“cylinder shell”的一个实际应用是在压力容器的建造中。这些容器设计用于在高压下储存气体或液体，而“cylinder shell”在确保这些容器能够承受内部力量而不发生故障方面发挥着关键作用。工程师必须仔细选择能够承受这些应力的材料，同时考虑温度和耐腐蚀性等因素。“cylinder shell”的另一个重要方面是其在结构稳定性中的作用。在土木工程中，“cylinder shell”常用于设计筒仓、储罐和其他需要强大但轻便解决方案的结构。“cylinder shell”均匀分配负载的能力使其成为这些应用的理想选择。通过利用圆柱的几何特性，工程师可以创建既高效又有效的结构。此外，“cylinder shell”的概念超越了传统的工程领域。在航空航天工程中，例如，火箭机身的设计通常结合了“cylinder shell”以优化飞行中的空气动力学和结构完整性。这些壳体的轻量化特性有助于整体效率，提高有效载荷能力和燃料效率。总之，“cylinder shell”是各个工程学科中的基本概念，为材料在应力下的行为提供了必要的见解。它的应用范围从压力容器设计到航空航天工程，展示了其多样性和重要性。通过掌握围绕“cylinder shell”的原则，工程师可以开发出更安全、更高效的结构，满足现代技术的需求。理解这一概念不仅增强了工程实践，还促进了塑造我们世界的创新。总之，“cylinder shell”在许多结构的分析和设计中作为一个重要组成部分，突显了数学原理与工程实践之间的相互关联。随着我们继续推动技术可能性的边界，掌握像“cylinder shell”这样的概念的重要性不容小觑。