anchored suspension

简明释义

锚固吊桥

英英释义

例句

1.The new car model features an advanced anchored suspension that improves stability on rough terrains.

这款新车型配备了先进的锚定悬挂，在崎岖地形上提高了稳定性。

2.In the engineering workshop, we learned how to design an anchored suspension system for our model bridges.

在工程车间，我们学习了如何为我们的模型桥设计锚定悬挂系统。

3.The anchored suspension used in this crane allows it to lift heavy loads safely.

这台起重机使用的锚定悬挂使其能够安全地提升重物。

4.For better performance in racing, the team opted for a custom anchored suspension setup.

为了在赛车中获得更好的性能，团队选择了定制的锚定悬挂设置。

5.The architect specified an anchored suspension for the hanging gardens to ensure they remain stable.

建筑师指定了锚定悬挂用于悬挂花园，以确保它们保持稳定。

作文

In the world of engineering and design, the concept of anchored suspension plays a crucial role in ensuring stability and safety in various structures. To understand this term, we first need to break it down into its components. 'Anchored' refers to something that is firmly secured or fixed in place, while 'suspension' relates to the act of hanging or being supported from above. When combined, anchored suspension describes a system where an object is suspended but also securely attached to a base or support structure, providing both balance and strength.One of the most common applications of anchored suspension can be found in bridge construction. Many modern bridges utilize cables that are anchored to the ground or to massive towers, allowing the bridge deck to be suspended above. This design not only helps to distribute weight evenly but also allows for flexibility during high winds or seismic activity. The anchoring of these cables is critical; it ensures that the entire structure remains stable and secure, preventing catastrophic failures.Another example can be seen in the field of architecture, particularly in the design of skyscrapers. Engineers often use anchored suspension techniques to create cantilevered sections of buildings that extend outward without visible support. These cantilevers are anchored to the main structure, allowing for innovative designs that maximize usable space while maintaining structural integrity. This method of construction has revolutionized urban landscapes, enabling architects to push the boundaries of creativity and functionality.In addition to bridges and buildings, anchored suspension systems are also prevalent in the automotive industry. For instance, the suspension systems in vehicles are designed to absorb shocks and maintain tire contact with the road. By utilizing anchored suspension principles, manufacturers can create systems that enhance ride quality and vehicle handling. The components of the suspension are anchored to the vehicle's frame, allowing for controlled movement while providing stability and comfort to passengers.The importance of anchored suspension extends beyond just physical structures; it also has implications in other fields such as art and design. Artists may use anchored suspension techniques to create installations that appear to float or hang in mid-air, challenging viewers' perceptions of gravity and space. By anchoring their work to the surrounding environment, they create a dynamic interaction between the artwork and its viewers, inviting them to engage with the piece on multiple levels.In conclusion, the concept of anchored suspension is integral to various disciplines, from engineering and architecture to art and design. It embodies the balance between support and freedom, allowing for innovative solutions that enhance both functionality and aesthetics. As we continue to explore new technologies and materials, the applications of anchored suspension will undoubtedly expand, leading to even more groundbreaking advancements in how we construct and experience our world.

在工程和设计的世界中，anchored suspension（锚定悬挂）的概念在确保各种结构的稳定性和安全性方面发挥着至关重要的作用。要理解这个术语，我们首先需要将其分解成组成部分。“锚定”指的是某物被牢固固定或固定在某个地方，而“悬挂”则与从上方悬挂或被支持的行为有关。当这两个词结合在一起时，anchored suspension 描述了一种系统，其中一个物体被悬挂但也牢固连接到基础或支撑结构上，从而提供平衡和强度。anchored suspension 的一个常见应用可以在桥梁建设中找到。许多现代桥梁利用锚定到地面或巨型塔的电缆，使桥面悬挂在上方。这种设计不仅有助于均匀分配重量，还允许在大风或地震活动期间灵活应对。这些电缆的锚定至关重要；它确保整个结构保持稳定和安全，防止灾难性故障。另一个例子可以在建筑领域看到，特别是在摩天大楼的设计中。工程师们经常使用 anchored suspension 技术来创建向外延伸而没有可见支撑的悬臂结构。这些悬臂锚定在主结构上，使得创新设计能够最大化可用空间，同时保持结构完整性。这种施工方法彻底改变了城市景观，使建筑师能够突破创造力和功能性的界限。除了桥梁和建筑，anchored suspension 系统在汽车工业中也很普遍。例如，车辆中的悬挂系统旨在吸收冲击并保持轮胎与路面的接触。通过利用 anchored suspension 原理，制造商可以创建增强乘坐质量和车辆操控性的系统。悬挂的组件锚定在车辆的框架上，允许控制运动，同时为乘客提供稳定性和舒适性。anchored suspension 的重要性超越了物理结构；它在艺术和设计等其他领域也有影响。艺术家可以使用 anchored suspension 技术创作看似漂浮或悬挂在半空中的装置，挑战观众对重力和空间的感知。通过将他们的作品锚定到周围环境，他们创造了艺术作品与观众之间的动态互动，邀请观众在多个层面上参与其中。总之，anchored suspension 的概念对于各个学科至关重要，从工程和建筑到艺术和设计。它体现了支持与自由之间的平衡，允许创新解决方案增强功能性和美学。随着我们继续探索新技术和材料，anchored suspension 的应用无疑会扩展，导致我们构建和体验世界的方式出现更多突破性的进展。