method of the substitute redundant members

简明释义

超静定构件取代法

英英释义

例句

1.By adopting the method of the substitute redundant members, the company minimized disruptions caused by unexpected absences.

通过采用替代冗余成员的方法，公司将因意外缺席而造成的干扰降到最低。

2.The method of the substitute redundant members allows for a smoother transition when new staff are onboarded into the existing workflow.

当新员工加入现有工作流程时，替代冗余成员的方法可以实现更顺畅的过渡。

3.The engineering team implemented the method of the substitute redundant members to enhance system reliability during critical operations.

工程团队实施了替代冗余成员的方法以提高关键操作期间系统的可靠性。

4.In project management, we often use the method of the substitute redundant members to ensure that tasks can continue smoothly in case a team member is unavailable.

在项目管理中，我们经常使用替代冗余成员的方法来确保在团队成员无法参与的情况下，任务能够顺利进行。

5.During the software development cycle, the method of the substitute redundant members was crucial for maintaining productivity when team members fell ill.

在软件开发周期中，替代冗余成员的方法对于在团队成员生病时保持生产力至关重要。

作文

In the field of structural engineering, the design and analysis of structures often involve complex calculations and considerations. One important aspect of this process is ensuring that a structure can withstand various loads and stresses while maintaining its integrity. Among the numerous methods used to achieve this, the method of the substitute redundant members plays a crucial role. This technique allows engineers to simplify the analysis of structures by introducing hypothetical members that do not exist in the original design but help in understanding the overall behavior of the structure under load. By using this method of the substitute redundant members, engineers can effectively identify and address potential weaknesses in the design before construction begins.The method of the substitute redundant members is particularly useful when dealing with indeterminate structures, where the number of unknown forces exceeds the number of available equations of equilibrium. In such cases, traditional methods may fall short, leading to inaccurate assessments of the structure's performance. However, by applying this method, engineers can introduce additional members that allow for a more comprehensive analysis. These substitute members are not part of the actual structure but serve as tools to facilitate calculations and improve understanding of how different parts of the structure interact.For example, consider a bridge that has multiple spans and supports. The forces acting on each span can be complex, especially when considering factors like wind, traffic loads, and thermal expansion. By employing the method of the substitute redundant members, engineers can create a simplified model of the bridge that includes these hypothetical members. This model can then be analyzed to determine how loads are distributed throughout the structure, helping engineers make informed decisions about material selection, reinforcement, and overall design.Moreover, the method of the substitute redundant members can also enhance safety and reliability. By identifying potential failure points and understanding how loads are transferred through the structure, engineers can implement design modifications that strengthen critical areas. This proactive approach not only improves the durability of the structure but also ensures that it meets safety standards and regulations.In conclusion, the method of the substitute redundant members is an invaluable tool in the arsenal of structural engineers. It simplifies the analysis of complex structures, enhances safety, and leads to more effective designs. As engineering practices continue to evolve, incorporating advanced modeling techniques and computational tools, the relevance of this method will likely increase, allowing engineers to tackle even more challenging projects with confidence. Understanding and mastering the method of the substitute redundant members will be essential for future engineers as they work to create safe and efficient structures that meet the demands of modern society.

在结构工程领域，结构的设计与分析通常涉及复杂的计算和考虑因素。这个过程中的一个重要方面是确保结构能够承受各种载荷和应力，同时保持其完整性。在众多用于实现这一目标的方法中，替代冗余构件的方法发挥着至关重要的作用。这项技术使工程师能够通过引入在原始设计中不存在的假想构件来简化结构分析，从而帮助理解结构在载荷下的整体行为。通过使用替代冗余构件的方法，工程师可以有效地识别和解决设计中的潜在弱点，以便在施工开始之前进行调整。替代冗余构件的方法在处理超静定结构时尤为有用，其中未知力的数量超过了可用平衡方程的数量。在这种情况下，传统方法可能会不够充分，导致对结构性能的不准确评估。然而，通过应用该方法，工程师可以引入附加构件，从而进行更全面的分析。这些替代构件并不是实际结构的一部分，而是作为工具来促进计算并改善对结构不同部分如何相互作用的理解。例如，考虑一座具有多个跨度和支撑的桥梁。每个跨度上作用的力可能非常复杂，尤其是在考虑风、交通载荷和热膨胀等因素时。通过采用替代冗余构件的方法，工程师可以创建一个简化的桥梁模型，该模型包括这些假想构件。然后可以分析该模型，以确定载荷如何在整个结构中分布，帮助工程师做出有关材料选择、加固和整体设计的明智决策。此外，替代冗余构件的方法还可以增强安全性和可靠性。通过识别潜在的失效点并了解载荷如何通过结构传递，工程师可以实施设计修改，以加强关键区域。这种主动的方法不仅提高了结构的耐久性，还确保其符合安全标准和法规。总之，替代冗余构件的方法是结构工程师工具箱中不可或缺的工具。它简化了复杂结构的分析，增强了安全性，并导致更有效的设计。随着工程实践的不断发展，结合先进的建模技术和计算工具，这一方法的相关性可能会增加，使工程师能够自信地应对更具挑战性的项目。理解和掌握替代冗余构件的方法将对未来的工程师至关重要，因为他们致力于创造满足现代社会需求的安全高效的结构。