clamped plate

简明释义

边缘固定板

英英释义

例句

1.The engineer secured the clamped plate to prevent any vibrations during testing.

工程师固定了夹紧板以防止测试过程中出现任何震动。

2.In the assembly line, the clamped plate holds the components in place for precise alignment.

在装配线上，夹紧板将组件固定到位，以确保精确对齐。

3.For the experiment, we need a clamped plate to hold the samples securely.

为了实验，我们需要一个夹紧板来安全地固定样品。

4.The technician adjusted the tension on the clamped plate to enhance stability.

技术员调整了夹紧板的张力以增强稳定性。

5.During the welding process, the clamped plate ensures that the metal pieces do not move.

在焊接过程中，夹紧板确保金属件不会移动。

作文

In the field of engineering and mechanics, understanding the behavior of materials under various conditions is crucial. One common scenario involves a structure known as a clamped plate (夹紧板). This term refers to a flat, rigid surface that is securely fixed at its edges, preventing any movement or deformation at those boundaries. The study of clamped plates is essential in applications ranging from civil engineering to aerospace design, where stability and strength are paramount.A clamped plate can be subjected to various types of loads, including uniform pressure, point loads, and thermal effects. When analyzing such a plate, engineers often employ mathematical models and simulations to predict how it will respond to these forces. For instance, when a uniform load is applied to a clamped plate, it tends to bend in the middle while the edges remain fixed. This bending creates stress concentrations that must be carefully managed to prevent failure.The significance of studying clamped plates extends beyond theoretical applications; it has real-world implications in designing structures like bridges, buildings, and aircraft wings. In each case, engineers must ensure that the materials used can withstand the expected loads without excessive deformation. Failure to account for the characteristics of a clamped plate could lead to catastrophic structural failures, making it imperative for engineers to have a thorough understanding of this concept.Furthermore, advancements in materials science have introduced new composite materials that exhibit unique properties when used in clamped plates. These materials can offer enhanced strength-to-weight ratios, corrosion resistance, and flexibility, which are advantageous in many engineering applications. As technology progresses, the analysis of clamped plates continues to evolve, incorporating sophisticated computational techniques that allow for more accurate predictions of performance under various conditions.In conclusion, the concept of a clamped plate (夹紧板) is fundamental in the study of structural mechanics. By comprehensively understanding how these plates behave under different loads and conditions, engineers can design safer and more efficient structures. As we continue to innovate and explore new materials and technologies, the analysis of clamped plates will remain a critical area of focus in engineering disciplines around the world.

在工程和力学领域，理解材料在各种条件下的行为至关重要。一种常见的场景涉及一个称为夹紧板的结构。这个术语指的是一个平坦、刚性的表面，其边缘被牢固固定，防止在这些边界发生任何移动或变形。对夹紧板的研究在土木工程到航空航天设计等应用中是必不可少的，在这些领域，稳定性和强度是至关重要的。夹紧板可以承受各种类型的载荷，包括均匀压力、点载荷和热效应。在分析这样的板时，工程师通常会使用数学模型和模拟来预测它将如何响应这些力量。例如，当均匀载荷施加到夹紧板上时，它往往在中间弯曲，而边缘保持固定。这种弯曲会产生应力集中，必须仔细管理以防止失效。研究夹紧板的重要性超越了理论应用；它在设计桥梁、建筑物和飞机机翼等结构方面具有现实世界的意义。在每种情况下，工程师必须确保所用材料能够承受预期的载荷而不会过度变形。未能考虑夹紧板的特性可能导致灾难性的结构故障，因此工程师必须全面理解这一概念。此外，材料科学的进步引入了新的复合材料，这些材料在用作夹紧板时表现出独特的特性。这些材料可以提供增强的强度与重量比、耐腐蚀性和灵活性，这在许多工程应用中都是有利的。随着技术的发展，对夹紧板的分析继续演变，结合复杂的计算技术，使得在各种条件下对性能的预测更加准确。总之，夹紧板的概念在结构力学的研究中是基础性的。通过全面理解这些板在不同载荷和条件下的行为，工程师可以设计出更安全、更高效的结构。随着我们继续创新和探索新材料和技术，对夹紧板的分析将始终是全球工程学科关注的关键领域。