base plate decoupling

简明释义

基板去耦;

英英释义

例句

1.To enhance performance, the team focused on base plate decoupling in their latest project.

为了提高性能，团队在他们的最新项目中专注于基础板解耦。

2.The base plate decoupling method helped isolate the machinery from external disturbances.

基础板解耦方法帮助将机械设备与外部干扰隔离开来。

3.During the testing phase, base plate decoupling was crucial for improving the overall stability of the system.

在测试阶段，基础板解耦对提高系统的整体稳定性至关重要。

4.We noticed significant improvements after applying base plate decoupling techniques in our design.

在我们的设计中应用基础板解耦技术后，我们注意到了显著的改进。

5.The engineers implemented base plate decoupling to reduce vibrations in the structure.

工程师们实施了基础板解耦以减少结构中的振动。

作文

In the field of engineering, particularly in structural and mechanical design, the concept of base plate decoupling plays a crucial role in ensuring the stability and integrity of structures. 基座板解耦 refers to the technique used to separate the base plate of a structure from the underlying foundation or support system. This separation can help mitigate the effects of vibrations, thermal expansion, and other forces that may compromise the performance of the structure. One of the primary reasons for implementing base plate decoupling is to enhance the overall durability of a building or machinery. For instance, in seismic-prone areas, buildings are often designed with decoupled base plates to allow for movement during an earthquake without transferring excessive forces to the main structure. This approach not only protects the building itself but also ensures the safety of its occupants. Furthermore, base plate decoupling can significantly reduce noise pollution in urban environments. By isolating machinery or equipment from the surrounding structures, engineers can minimize the transmission of sound waves, creating a quieter and more pleasant atmosphere. This application is especially relevant in industries such as manufacturing, where heavy machinery can generate substantial noise levels. The implementation of base plate decoupling involves various materials and techniques. Engineers may use rubber pads, springs, or specialized bearings to achieve the desired level of decoupling. The choice of material and design depends on factors such as the weight of the structure, the types of loads it will experience, and the specific environmental conditions at the site. Moreover, modern advancements in technology have allowed for more sophisticated methods of base plate decoupling. For example, some systems incorporate sensors and control mechanisms that actively adjust the isolation properties based on real-time conditions, providing enhanced protection against dynamic loads. This innovation represents a significant leap forward in engineering practices, enabling structures to adapt to their environment more effectively. In conclusion, the concept of base plate decoupling is essential in modern engineering, particularly in enhancing the resilience of structures against various external forces. Its applications range from improving safety in earthquake-prone regions to reducing noise pollution in urban settings. As technology continues to evolve, the methods and materials used for base plate decoupling will likely become even more advanced, leading to safer and more efficient designs in the future.

在工程领域，特别是在结构和机械设计中，基座板解耦的概念在确保结构的稳定性和完整性方面发挥着至关重要的作用。基座板解耦是指将结构的基座板与基础或支撑系统分离的技术。这种分离可以帮助减轻震动、热膨胀和其他可能影响结构性能的力量的影响。实施基座板解耦的主要原因之一是增强建筑物或机械的整体耐久性。例如，在地震频发地区，建筑物通常设计为具有解耦的基座板，以便在地震期间允许建筑物移动，而不会将过多的力量转移到主结构上。这种方法不仅保护了建筑本身，还确保了其居住者的安全。此外，基座板解耦可以显著减少城市环境中的噪音污染。通过将机器或设备与周围结构隔离，工程师可以最小化声波的传播，从而创造一个更安静、更宜人的环境。这一应用在制造等行业尤为相关，在这些行业中，重型机械可能会产生大量噪音。实施基座板解耦涉及各种材料和技术。工程师可能使用橡胶垫、弹簧或专门的轴承来实现所需的解耦水平。材料和设计的选择取决于诸如结构的重量、它将经历的负载类型以及现场的特定环境条件等因素。此外，现代技术的进步使得基座板解耦的方法更加复杂。例如，一些系统结合了传感器和控制机制，可以根据实时条件主动调整隔离特性，从而提供对动态负载的增强保护。这一创新代表了工程实践的重大飞跃，使结构能够更有效地适应其环境。总之，基座板解耦的概念在现代工程中至关重要，特别是在增强结构抵御各种外部力量的韧性方面。它的应用范围从提高地震频发地区的安全性到减少城市环境中的噪音污染。随着技术的不断发展，用于基座板解耦的方法和材料可能会变得更加先进，从而在未来实现更安全、更高效的设计。