shaking table

简明释义

振动台

英英释义

例句

1.The shaking table is an essential tool in the process of mineral processing.

摇床是矿物加工过程中必不可少的工具。

2.During the experiment, the researcher adjusted the angle of the shaking table for better separation.

在实验中，研究人员调整了摇床的角度以获得更好的分离效果。

3.The shaking table operates on the principle of gravity and motion to separate materials.

摇床基于重力和运动的原理来分离材料。

4.The miners used a shaking table to separate gold from the ore.

矿工们使用摇床将黄金从矿石中分离出来。

5.In the laboratory, we observed how the shaking table efficiently sorted different minerals.

在实验室里，我们观察到摇床如何高效地分选不同的矿物。

作文

In the field of engineering and architecture, the term shaking table refers to a device used to simulate ground motion during an earthquake. This equipment is crucial for testing the structural integrity of buildings and other constructions under seismic conditions. By replicating the vibrations that occur during an earthquake, engineers can evaluate how well a structure will perform in real-world scenarios. The importance of shaking tables cannot be overstated, as they provide invaluable data that can lead to safer building practices and improved designs.The functioning of a shaking table involves a platform that can move in multiple directions, mimicking the unpredictable nature of seismic waves. Engineers place scale models of buildings or bridges on this platform to observe how these structures respond to various frequencies and amplitudes of shaking. This process allows them to identify potential weaknesses and make necessary adjustments before actual construction begins.One of the significant benefits of using a shaking table is the ability to conduct experiments in a controlled environment. Researchers can manipulate different variables, such as the height of the building, the materials used, and the type of foundation, to see how each factor influences the overall stability of the structure. This level of experimentation is essential for developing new technologies and methodologies in earthquake-resistant design.Moreover, shaking tables play a vital role in educating future engineers. Universities and research institutions often incorporate these devices into their curricula, allowing students to gain hands-on experience with seismic testing. Understanding the principles behind a shaking table and its applications prepares students for real-world challenges they will face in their careers.In addition to their use in structural engineering, shaking tables also have applications in other fields. For instance, they are used in the mining industry to separate materials based on density. In this context, a shaking table helps to concentrate valuable minerals from ore by exploiting the differences in particle weight and movement.Overall, the shaking table is a versatile tool that has significantly impacted both the engineering and mining sectors. Its ability to replicate the dynamic forces of an earthquake makes it an indispensable asset for improving safety standards in construction. As technology advances, we can expect to see even more innovative uses for shaking tables, further enhancing our understanding of material behavior under stress and contributing to the development of resilient infrastructure.In conclusion, the shaking table serves as a critical instrument in the pursuit of knowledge and safety in engineering. By allowing for the simulation of real-life scenarios, it enables engineers to design structures that can withstand the forces of nature. The ongoing research and development surrounding shaking tables will undoubtedly lead to a future where buildings are not only more robust but also better equipped to handle the challenges posed by earthquakes and other natural disasters.

在工程和建筑领域，术语shaking table指的是一种用于模拟地震期间地面运动的设备。这种设备对于测试建筑物及其他结构在地震条件下的结构完整性至关重要。通过复制地震期间发生的振动，工程师可以评估一个结构在现实场景中的表现。shaking tables的重要性不容小觑，因为它们提供了宝贵的数据，可以导致更安全的建筑实践和改进的设计。shaking table的工作原理涉及一个可以在多个方向上移动的平台，模拟地震波的不确定性。工程师将建筑或桥梁的缩尺模型放置在该平台上，以观察这些结构如何响应不同频率和幅度的震动。这个过程使他们能够识别潜在的弱点，并在实际施工开始之前进行必要的调整。使用shaking table的一个显著好处是能够在受控环境中进行实验。研究人员可以操纵不同的变量，如建筑的高度、所用材料和基础类型，以查看每个因素如何影响结构的整体稳定性。这种实验水平对于开发抗震设计的新技术和方法至关重要。此外，shaking tables在教育未来工程师方面也发挥着重要作用。大学和研究机构通常将这些设备纳入其课程中，使学生能够获得与地震测试相关的实践经验。了解shaking table背后的原理及其应用使学生为他们职业生涯中将面临的现实挑战做好准备。除了在结构工程中的应用外，shaking tables在其他领域也有应用。例如，它们在采矿行业中用于根据密度分离材料。在这种情况下，shaking table通过利用颗粒重量和运动之间的差异来帮助从矿石中浓缩有价值的矿物。总的来说，shaking table是一种多功能工具，对工程和采矿行业产生了重大影响。它能够复制地震的动态力量，使其成为改善建筑安全标准的不可或缺的资产。随着技术的进步，我们可以期待看到shaking tables的更多创新用途，进一步增强我们对材料在压力下行为的理解，并促进韧性基础设施的发展。总之，shaking table作为追求知识和安全的重要工具，在工程学中发挥着关键作用。通过允许模拟现实场景，它使工程师能够设计出能够承受自然力量的结构。围绕shaking tables的持续研究和发展无疑将导致一个未来，建筑不仅更加坚固，而且更好地应对地震和其他自然灾害带来的挑战。