designed displacement

简明释义

设计排水量

英英释义

例句

1.Engineers calculated the designed displacement of the building to ensure it could withstand strong winds.

工程师计算了建筑物的设计位移，以确保其能够抵御强风。

2.The designed displacement in the suspension system helps to improve ride comfort in vehicles.

悬挂系统中的设计位移有助于提高车辆的乘坐舒适性。

3.The designed displacement in this mechanical part allows for better performance under load.

这个机械部件中的设计位移允许在负载下更好地表现。

4.During the earthquake simulation, the designed displacement of the structure was tested for safety.

在地震模拟中，结构的设计位移被测试以确保安全。

5.The new bridge features a designed displacement to accommodate the expansion caused by temperature changes.

这座新桥具有设计位移，以适应温度变化引起的膨胀。

作文

In the world of engineering and design, the concept of designed displacement plays a crucial role in ensuring that structures and systems function effectively. Designed displacement refers to the intentional movement or alteration of an object’s position, shape, or form as a result of specific design choices. This principle is especially important in fields such as architecture, mechanical engineering, and product design, where precision and functionality are paramount.For instance, consider the design of a bridge. Engineers must account for various forces acting on the structure, including weight, wind, and seismic activity. By understanding and implementing designed displacement, they can predict how the bridge will respond to these forces and make necessary adjustments to ensure its stability and safety. The bridge may be designed to flex slightly under heavy loads, allowing it to absorb stress without compromising its integrity. This flexibility is a direct result of designed displacement, showcasing how intentional design can enhance performance.Similarly, in the realm of product design, designed displacement can influence user experience. Take, for example, the design of a smartphone. Designers must consider how users interact with the device, including how it fits comfortably in their hands. By strategically placing buttons and adjusting the phone's shape, designers create a designed displacement that enhances usability. The slight curvature of the edges allows for a better grip, making it easier for users to hold and operate the device without dropping it.Moreover, designed displacement is not limited to physical objects; it can also apply to digital environments. In web design, for example, the layout of elements on a webpage can guide users' attention and improve navigation. Designers often use designed displacement to create visual hierarchies, ensuring that important information stands out while less critical content is subtly integrated into the overall design. This intentional arrangement helps users find what they need quickly and efficiently, enhancing their overall experience.The importance of designed displacement extends beyond aesthetics and functionality; it also has significant implications for sustainability. In modern engineering practices, there is a growing emphasis on creating designs that minimize waste and maximize efficiency. By understanding how materials can be displaced and utilized effectively, designers can create products that require fewer resources and generate less environmental impact. For instance, in the automotive industry, manufacturers are exploring ways to reduce the weight of vehicles through designed displacement, which can lead to improved fuel efficiency and lower emissions.In conclusion, designed displacement is a fundamental concept that permeates various fields of design and engineering. Whether it is in the construction of bridges, the ergonomics of consumer products, or the layout of digital interfaces, the intentional manipulation of displacement can significantly enhance performance, user experience, and sustainability. As we continue to innovate and push the boundaries of design, understanding and applying the principles of designed displacement will be essential for creating solutions that are not only functional but also environmentally responsible. By embracing this concept, designers can contribute to a more efficient and sustainable future, ultimately improving the quality of life for all.

在工程和设计的世界中，设计位移的概念在确保结构和系统有效运作方面发挥着至关重要的作用。设计位移是指由于特定设计选择而导致物体位置、形状或形式的有意移动或改变。这个原则在建筑、机械工程和产品设计等领域尤为重要，因为这些领域对精确性和功能性有着严格的要求。例如，考虑一座桥的设计。工程师必须考虑作用于结构的各种力量，包括重量、风力和地震活动。通过理解和实施设计位移，他们可以预测桥梁如何响应这些力量，并进行必要的调整以确保其稳定性和安全性。桥梁可能被设计为在重载下略微弯曲，从而使其能够吸收压力而不损害其完整性。这种灵活性直接源于设计位移，展示了有意设计如何增强性能。同样，在产品设计领域，设计位移可以影响用户体验。例如，智能手机的设计。设计师必须考虑用户如何与设备互动，包括它如何舒适地适合他们的手。通过战略性地放置按钮和调整手机的形状，设计师创造了一种增强可用性的设计位移。边缘的微微弯曲使得握持更好，方便用户在操作设备时不易掉落。此外，设计位移不仅限于物理对象；它也可以应用于数字环境。在网页设计中，例如，网页元素的布局可以引导用户的注意力并改善导航。设计师通常使用设计位移来创建视觉层次，确保重要信息突出，而不太重要的内容则巧妙地融入整体设计中。这种有意的排列帮助用户快速有效地找到所需信息，从而提升整体体验。设计位移的重要性不仅体现在美学和功能性上；它对可持续性也有重要影响。在现代工程实践中，越来越强调创造最小化浪费和最大化效率的设计。通过理解材料如何被有效地位移和利用，设计师可以创造出所需资源更少、环境影响更小的产品。例如，在汽车工业中，制造商正在探索通过设计位移来减少车辆重量的方法，这可以提高燃油效率并降低排放。总之，设计位移是一个基本概念，渗透到设计和工程的各个领域。无论是在桥梁建设、消费产品的人体工学，还是数字界面的布局中，有意操控位移都可以显著提高性能、用户体验和可持续性。随着我们不断创新并推动设计的边界，理解和应用设计位移的原则将对创造不仅具有功能性而且对环境负责任的解决方案至关重要。通过接受这一概念，设计师可以为更高效和可持续的未来做出贡献，最终改善所有人的生活质量。