applied plate

简明释义

防水贴板

英英释义

例句

1.The applied plate was designed to withstand high temperatures in the furnace.

该应用板设计用于承受炉内高温。

2.Using an applied plate can significantly reduce vibration in machinery.

使用应用板可以显著减少机械的振动。

3.We need to ensure that the applied plate is properly aligned before proceeding with the installation.

我们需要确保在进行安装之前，应用板正确对齐。

4.In the prototype, the applied plate helped to stabilize the components during testing.

在原型中，应用板帮助在测试过程中稳定组件。

5.The engineer recommended using an applied plate for better load distribution in the structure.

工程师建议使用应用板以更好地分配结构中的负载。

作文

The concept of an applied plate is significant in various fields, particularly in engineering and materials science. An applied plate refers to a flat piece of material that has been subjected to specific forces or conditions to study its behavior under those circumstances. Understanding the properties and performance of an applied plate is crucial for designing structures that can withstand various loads and stresses. For example, in civil engineering, when engineers design bridges or buildings, they often utilize applied plates in their calculations to ensure that the materials used can handle the expected weight and environmental factors. This involves analyzing how the plate reacts to bending, stretching, or compressing forces, which can be critical for safety and durability.In the realm of mechanical engineering, applied plates are also essential in the study of machinery and components. When a machine operates, different parts experience various forces, and understanding how these forces affect the applied plate helps engineers improve designs. For instance, in automotive engineering, the chassis of a vehicle can be considered an applied plate, as it must endure the weight of the car while also providing support during acceleration, braking, and turning. Engineers use simulations and physical tests on applied plates to optimize the strength-to-weight ratio, ensuring that vehicles are both safe and efficient.Moreover, the study of applied plates extends into the field of aerodynamics. Aircraft wings, which can be seen as large applied plates, must be designed to handle aerodynamic forces while minimizing drag. Engineers conduct wind tunnel tests on models that mimic the applied plate structure of wings to gather data on lift and resistance. This information is invaluable for creating aircraft that can fly efficiently and safely.In addition to engineering applications, the concept of an applied plate can also be found in the arts and design. Artists and designers often use plates in their work, applying pressure, heat, or other techniques to manipulate materials into desired forms. The process of creating art can be viewed through the lens of applied plates, where the artist's intent and the material's response to various stimuli create a unique outcome. This intersection of art and science highlights the versatility of the applied plate concept across disciplines.In conclusion, the term applied plate encompasses a wide range of applications from engineering to art. It represents the interaction between material properties and external forces, allowing for a deeper understanding of how structures and designs perform in real-world scenarios. Whether in building bridges, designing vehicles, or creating art, the principles underlying applied plates play a pivotal role in ensuring functionality, safety, and aesthetic appeal. As technology advances, the study of applied plates will continue to evolve, leading to innovative solutions and designs that push the boundaries of what is possible.

“applied plate”这一概念在多个领域中具有重要意义，特别是在工程和材料科学中。“applied plate”指的是一块被施加特定力量或条件的平面材料，以研究其在这些情况下的行为。理解“applied plate”的特性和性能对于设计能够承受各种载荷和应力的结构至关重要。例如，在土木工程中，当工程师设计桥梁或建筑物时，他们通常会在计算中利用“applied plate”，以确保所使用的材料能够承受预期的重量和环境因素。这涉及到分析该板在弯曲、拉伸或压缩力量下的反应，这对安全性和耐久性至关重要。在机械工程领域，“applied plate”同样在机械和部件的研究中不可或缺。当机器运行时，不同的部件会经历各种力量，理解这些力量如何影响“applied plate”有助于工程师改进设计。例如，在汽车工程中，车辆的底盘可以视为一个“applied plate”，因为它必须承受汽车的重量，同时在加速、刹车和转弯时提供支撑。工程师通过对“applied plate”进行模拟和物理测试来优化强度与重量比，确保车辆既安全又高效。此外，“applied plate”的研究还扩展到空气动力学领域。飞机机翼可以视为大型“applied plate”，必须设计成能够处理空气动力学力量，同时最小化阻力。工程师在模拟“applied plate”结构的模型上进行风洞测试，以收集升力和阻力的数据。这些信息对制造高效安全的飞机至关重要。除了工程应用外，“applied plate”的概念也出现在艺术和设计领域。艺术家和设计师在创作过程中经常使用板材，通过施加压力、热量或其他技术来操控材料形成所需的形状。创造艺术的过程可以通过“applied plate”的视角来看待，艺术家的意图和材料对各种刺激的反应共同创造出独特的结果。这种艺术与科学的交汇突显了“applied plate”概念在各个学科中的多样性。总之，“applied plate”这一术语涵盖了从工程到艺术的广泛应用。它代表了材料特性与外部力量之间的相互作用，使我们更深入地理解结构和设计在现实世界中的表现。无论是在建造桥梁、设计车辆还是创作艺术作品，支撑“applied plate”原理的原则在确保功能性、安全性和美学吸引力方面发挥着关键作用。随着科技的进步，“applied plate”的研究将继续发展，带来创新的解决方案和设计，推动可能性的边界。