multielement member

简明释义

多单元装配件

英英释义

例句

1.In our research, we identified a multielement member 多元素成员 that plays a crucial role in the chemical reactions.

在我们的研究中，我们识别出一个多元素成员 multielement member，它在化学反应中起着至关重要的作用。

2.Understanding the behavior of a multielement member 多元素成员 is essential for predicting material properties.

理解多元素成员 multielement member的行为对于预测材料性能至关重要。

3.The team developed a new model that incorporates a multielement member 多元素成员 to improve accuracy.

团队开发了一个新的模型，包含一个多元素成员 multielement member，以提高准确性。

4.The software simulation allows us to analyze the interactions of a multielement member 多元素成员 within the system.

该软件模拟使我们能够分析系统中多元素成员 multielement member的相互作用。

5.During the experiment, we observed how a multielement member 多元素成员 can change its state under different conditions.

在实验过程中，我们观察到多元素成员 multielement member如何在不同条件下改变其状态。

作文

In the realm of structural engineering, the term multielement member refers to a component that is composed of multiple interconnected elements working together to bear loads and provide stability to a structure. Understanding the significance of multielement member is crucial for engineers and architects in designing safe and efficient buildings. Such members can be seen in various forms, including trusses, beams, and frames, which are essential in modern construction. The design of a multielement member involves careful consideration of the materials used, the arrangement of the elements, and the forces they will encounter. For instance, in a truss bridge, the individual struts and ties are arranged in a triangular configuration to distribute loads evenly. This configuration allows the structure to withstand significant weight while minimizing material usage. By utilizing a multielement member, engineers can create structures that are not only strong but also cost-effective. One of the key advantages of using multielement members is their ability to adapt to various loading conditions. When a single element is subjected to force, it may fail under excessive stress. However, when multiple elements work together, they can share the load, reducing the likelihood of failure. This principle is particularly important in seismic design, where buildings must be able to withstand the forces generated by earthquakes. Engineers often employ multielement members in these scenarios to enhance the overall resilience of the structure. Moreover, multielement members play a vital role in improving the aesthetic appeal of buildings. Architects often use them to create visually striking designs that also serve functional purposes. For example, the intricate framework of a modern skyscraper not only supports the building but also adds to its architectural beauty. This dual functionality is one of the hallmarks of contemporary design, where form and function coexist harmoniously. In conclusion, the concept of multielement member is integral to the field of structural engineering. It embodies the principles of efficiency, strength, and aesthetics. As we continue to innovate in construction techniques and materials, the importance of understanding and effectively utilizing multielement members will only grow. Whether in bridges, buildings, or other structures, these components are foundational to creating safe and inspiring environments for people to live and work in. With the right knowledge and application, engineers can harness the power of multielement members to push the boundaries of what is possible in architecture and engineering.

在结构工程领域，术语多元素构件指的是由多个相互连接的元素组成的组件，这些元素共同作用以承受荷载并为结构提供稳定性。理解多元素构件的重要性对工程师和建筑师在设计安全高效的建筑至关重要。这种构件可以以各种形式出现，包括桁架、梁和框架，这些都是现代建筑中不可或缺的。设计多元素构件涉及对所用材料、元素的排列以及它们将遇到的力的仔细考虑。例如，在一座桁架桥中，单独的支柱和拉杆以三角形配置排列，以均匀分配荷载。这种配置使结构能够承受显著的重量，同时减少材料使用。通过利用多元素构件，工程师可以创建不仅强大而且具有成本效益的结构。使用多元素构件的一个主要优点是它们能够适应各种加载条件。当单个元素受到力的作用时，可能会在过大压力下失效。然而，当多个元素协同工作时，它们可以共同分担荷载，从而减少失效的可能性。这一原理在抗震设计中尤为重要，因为建筑物必须能够承受地震产生的力量。工程师通常在这些情况下采用多元素构件来增强结构的整体韧性。此外，多元素构件在提高建筑美学吸引力方面也发挥着重要作用。建筑师经常利用它们创造出既具视觉冲击力又具功能性的设计。例如，现代摩天大楼复杂的框架不仅支撑建筑，还增加了其建筑美感。这种双重功能是当代设计的标志之一，在这种设计中，形式与功能和谐共存。总之，多元素构件的概念是结构工程领域的核心。它体现了效率、强度和美学的原则。随着我们在建筑技术和材料上不断创新，理解和有效利用多元素构件的重要性只会增加。无论是在桥梁、建筑还是其他结构中，这些构件都是为人们创造安全和激励环境的基础。通过正确的知识和应用，工程师可以利用多元素构件的力量推动建筑和工程领域的可能性。