wall thickness

简明释义

壁厚

英英释义

例句

1.We need to calculate the wall thickness 壁厚 to ensure structural integrity.

我们需要计算壁厚以确保结构的完整性。

2.The engineer specified the wall thickness 壁厚 required for the pressure vessel.

工程师指定了压力容器所需的壁厚。

3.During the inspection, the wall thickness 壁厚 of the steel beams was found to be insufficient.

在检查中，发现钢梁的壁厚不足。

4.The manufacturer provides options for different wall thicknesses 壁厚 in their pipes.

制造商为他们的管道提供不同的壁厚选项。

5.To improve insulation, we need to increase the wall thickness 壁厚 of the building.

为了改善绝缘，我们需要增加建筑的壁厚。

作文

The concept of wall thickness is essential in various fields, including architecture, engineering, and manufacturing. Understanding wall thickness can significantly impact the structural integrity and overall performance of a building or product. In this essay, we will explore the importance of wall thickness, its applications, and how it affects different materials used in construction and manufacturing.Firstly, let us define what wall thickness means. It refers to the measurement of how thick a wall is, whether it be in buildings, pipes, or any other structures. The wall thickness plays a crucial role in determining the strength and durability of a structure. For instance, in construction, thicker walls can provide better insulation and support, while thinner walls may be more cost-effective but could compromise safety and longevity.In architectural design, the choice of wall thickness is often influenced by aesthetic considerations as well as functional requirements. For example, a modern building may feature large windows and open spaces, necessitating a careful balance between wall thickness and structural support. Architects must consider not only the visual appeal but also the load-bearing capacity of the walls when deciding on their wall thickness. This decision is critical, as it can affect energy efficiency and the building's ability to withstand environmental stresses such as wind and earthquakes.Moreover, different materials exhibit varying properties when it comes to wall thickness. For example, concrete walls are typically much thicker than those made from lightweight materials like drywall. The choice of material directly influences the required wall thickness. In industrial settings, the wall thickness of pipes is vital, especially in high-pressure systems. A thicker pipe wall can handle higher pressures without bursting, making it essential for safety in chemical plants and oil refineries.In addition to safety and structural integrity, the wall thickness also plays a significant role in thermal performance. Thicker walls can provide better insulation, which is crucial for energy efficiency in buildings. In colder climates, buildings with adequate wall thickness can retain heat more effectively, reducing heating costs and improving comfort for occupants.Furthermore, the manufacturing process often dictates the wall thickness of products. For instance, injection-molded plastic parts require specific wall thickness to ensure proper flow during production and to maintain strength in the final product. Engineers must carefully calculate the optimal wall thickness to avoid issues such as warping or cracking during the manufacturing process.In conclusion, understanding the significance of wall thickness is vital across various industries. Whether in construction, manufacturing, or product design, the implications of wall thickness are far-reaching. It affects not only the structural integrity and safety of buildings and products but also their energy efficiency and aesthetic appeal. As technology advances, the methods for measuring and optimizing wall thickness will continue to evolve, ensuring that structures are both safe and sustainable for future generations.

“墙壁厚度”这一概念在建筑、工程和制造等多个领域中至关重要。理解“墙壁厚度”可以显著影响建筑或产品的结构完整性和整体性能。在这篇文章中，我们将探讨“墙壁厚度”的重要性、其应用以及它如何影响建筑和制造中使用的不同材料。首先，让我们定义一下“墙壁厚度”的含义。它指的是墙体的厚度，无论是在建筑、管道还是其他结构中。“墙壁厚度”在确定结构的强度和耐久性方面起着至关重要的作用。例如，在建筑中，较厚的墙体可以提供更好的绝缘和支撑，而较薄的墙体可能更具成本效益，但可能会危及安全性和耐久性。在建筑设计中，“墙壁厚度”的选择通常受到美学考虑和功能要求的影响。例如，一座现代建筑可能具有大窗户和开放空间，因此在“墙壁厚度”和结构支撑之间需要仔细平衡。建筑师在决定墙体的“墙壁厚度”时，必须考虑到视觉吸引力和墙体的承载能力。这一决定至关重要，因为它可能影响能源效率以及建筑抵御风和地震等环境压力的能力。此外，不同材料在“墙壁厚度”方面表现出不同的特性。例如，混凝土墙通常比轻质材料（如干墙）要厚得多。材料的选择直接影响所需的“墙壁厚度”。在工业环境中，管道的“墙壁厚度”至关重要，尤其是在高压系统中。较厚的管道壁可以承受更高的压力而不破裂，这对于化工厂和石油精炼厂的安全至关重要。除了安全性和结构完整性外，“墙壁厚度”在热性能方面也起着重要作用。较厚的墙体可以提供更好的绝缘，这对建筑的能源效率至关重要。在寒冷的气候中，具有适当“墙壁厚度”的建筑可以更有效地保持热量，从而降低取暖成本，提高居住者的舒适度。此外，制造过程通常决定了产品的“墙壁厚度”。例如，注塑成型的塑料零件需要特定的“墙壁厚度”以确保在生产过程中流动良好并在最终产品中保持强度。工程师必须仔细计算最佳的“墙壁厚度”，以避免在制造过程中出现翘曲或开裂等问题。总之，理解“墙壁厚度”的重要性在各个行业中都是至关重要的。无论是在建筑、制造还是产品设计中，“墙壁厚度”的影响都是深远的。它不仅影响建筑和产品的结构完整性和安全性，还影响它们的能源效率和美学吸引力。随着技术的进步，测量和优化“墙壁厚度”的方法将继续发展，确保未来的结构既安全又可持续。