vertical coupling

简明释义

立式联轴节

英英释义

例句

1.The vertical coupling mechanism allows for more efficient energy transfer in the turbine.

该垂直耦合机制允许涡轮中更高效的能量传递。

2.The design of the bridge incorporates vertical coupling to enhance its stability during strong winds.

这座桥的设计采用了垂直耦合以增强其在强风中的稳定性。

3.In robotics, vertical coupling is crucial for synchronizing movements between different joints.

在机器人技术中，垂直耦合对不同关节之间的运动同步至关重要。

4.The engineers discussed the benefits of vertical coupling in the context of seismic resistance.

工程师们讨论了在抗震方面垂直耦合的好处。

5.By implementing vertical coupling, the team was able to improve the overall performance of the mechanical system.

通过实施垂直耦合，团队能够提高机械系统的整体性能。

作文

In the world of engineering and design, the term vertical coupling plays a significant role in understanding how different components interact within a system. Vertical coupling refers to the connection or interaction between elements that are aligned in a vertical manner, often seen in structures, machinery, and various mechanical systems. This concept is crucial for ensuring stability, efficiency, and functionality in designs. For instance, when constructing a skyscraper, engineers must consider how the different floors (or vertical elements) are coupled together to withstand wind forces and other external loads. The strength and integrity of these vertical couplings directly impact the building's overall performance and safety.Moreover, vertical coupling is not limited to physical structures; it also applies to various fields such as ecology, economics, and social sciences. In ecology, for example, the concept can describe the relationship between different trophic levels in an ecosystem, where energy flows from one level to another in a vertical fashion. Understanding these relationships helps ecologists manage ecosystems more effectively and predict the impacts of changes within them.In economics, vertical coupling can refer to the relationship between different stages of production, such as suppliers and manufacturers. A strong vertical coupling in this context ensures that materials flow smoothly from one stage to the next, optimizing production efficiency and reducing costs. Businesses strive to enhance their vertical couplings to create a more streamlined operation, which can lead to increased profitability.Furthermore, in the realm of social sciences, vertical coupling can describe the connections between different levels of governance, such as local, regional, and national authorities. Effective vertical coupling between these levels is essential for policy implementation and ensuring that local needs are met while aligning with national objectives. This dynamic interplay fosters a more cohesive society and enhances the effectiveness of governance.In summary, vertical coupling is a multifaceted concept that transcends various disciplines. Whether in engineering, ecology, economics, or social sciences, understanding the implications of vertical coupling is vital for creating efficient systems and structures. As we continue to develop and innovate in our respective fields, recognizing the importance of these vertical connections will enable us to build more resilient and effective solutions to the challenges we face. Thus, the study and application of vertical coupling should be a priority for professionals aiming to enhance their work and contribute positively to their domains.

在工程和设计的世界中，术语垂直耦合在理解不同组件如何在系统内相互作用方面发挥着重要作用。垂直耦合指的是在垂直方向上对齐的元素之间的连接或相互作用，通常出现在结构、机械和各种机械系统中。这个概念对于确保设计的稳定性、效率和功能至关重要。例如，在建造摩天大楼时，工程师必须考虑不同楼层（或垂直元素）如何耦合在一起，以抵御风力和其他外部荷载。这些垂直耦合的强度和完整性直接影响建筑的整体性能和安全性。此外，垂直耦合不仅限于物理结构；它还适用于生态学、经济学和社会科学等各个领域。例如，在生态学中，这个概念可以描述生态系统中不同营养级之间的关系，其中能量以垂直方式从一个级别流向另一个级别。理解这些关系有助于生态学家更有效地管理生态系统，并预测其中变化的影响。在经济学中，垂直耦合可以指不同生产阶段之间的关系，例如供应商和制造商。在这种情况下，强大的垂直耦合确保材料从一个阶段顺利流向下一个阶段，优化生产效率并降低成本。企业努力增强其垂直耦合，以创建更精简的运营，从而提高盈利能力。此外，在社会科学领域，垂直耦合可以描述不同治理层级之间的联系，例如地方、区域和国家当局。这些层级之间有效的垂直耦合对于政策实施至关重要，确保当地需求得到满足，同时与国家目标保持一致。这种动态互动促进了更具凝聚力的社会，并增强了治理的有效性。总之，垂直耦合是一个多方面的概念，超越了各个学科。无论是在工程、生态学、经济学还是社会科学中，理解垂直耦合的影响对于创建高效的系统和结构至关重要。随着我们在各自领域的继续发展和创新，认识到这些垂直连接的重要性将使我们能够建立更具韧性和有效性的解决方案，以应对我们面临的挑战。因此，研究和应用垂直耦合应成为专业人士提升工作和积极贡献于其领域的优先事项。