strength member

简明释义

强力构件

英英释义

例句

1.During the inspection, the technician noted that one strength member was damaged.

在检查中，技术人员注意到一个承重构件受损。

2.The bridge's strength members are crucial for its overall integrity.

桥梁的承重构件对其整体完整性至关重要。

3.In this design, the columns serve as the primary strength members to support the roof.

在这个设计中，柱子作为主要的承重构件来支撑屋顶。

4.Adding more strength members can enhance the stability of the building.

增加更多的承重构件可以提高建筑的稳定性。

5.The engineer explained that the beam acts as a strength member in the structure.

工程师解释说，这根梁在结构中作为一个承重构件。

作文

In the field of engineering and architecture, the term strength member refers to a structural element that is designed to carry loads and resist forces without failing. These members are crucial in ensuring the stability and integrity of buildings, bridges, and various other structures. Understanding the role of strength member is essential for anyone involved in construction or design, as they provide the necessary support to withstand various stresses. For instance, in a steel frame building, the beams and columns act as strength members. The beams transfer loads from the roof and floors to the columns, which then distribute those loads to the foundation. This system of interconnected elements creates a robust framework that can endure environmental factors such as wind, snow, and seismic activity. Without adequate strength members, a structure would be vulnerable to collapse under pressure. Moreover, the materials used for strength members play a significant role in their effectiveness. Engineers often select materials based on their tensile and compressive strength. For example, steel is commonly used due to its high strength-to-weight ratio, allowing for lighter structures that can still support heavy loads. On the other hand, concrete is favored for its compressive strength, making it ideal for columns and foundations. The design and analysis of strength members involve complex calculations and considerations. Engineers must account for factors such as load distribution, material properties, and safety margins. Advanced software tools are often utilized to simulate how these members will perform under various conditions, ensuring that they meet safety standards and regulations. In addition to traditional materials, modern engineering has introduced innovative solutions such as composite materials and advanced alloys. These materials can enhance the performance of strength members, providing greater durability and resistance to environmental degradation. For example, fiber-reinforced polymers can be used to strengthen existing concrete structures without adding significant weight. Furthermore, sustainability is becoming an increasingly important consideration in the design of strength members. Engineers are now tasked with finding ways to reduce the environmental impact of construction while maintaining safety and performance. This includes using recycled materials and designing for energy efficiency. In conclusion, the concept of strength member is fundamental to the fields of engineering and architecture. These structural elements ensure the safety and durability of buildings and infrastructure. As technology advances and sustainability becomes a priority, the understanding and application of strength members will continue to evolve, leading to safer and more efficient designs in the future.

在工程和建筑领域，术语strength member指的是一种结构元素，旨在承载荷载并抵抗力而不发生失效。这些构件对于确保建筑物、桥梁及各种其他结构的稳定性和完整性至关重要。理解strength member的作用对于任何参与建设或设计的人来说都是必不可少的，因为它们提供了必要的支持，以承受各种压力。例如，在钢框架建筑中，梁和柱作为strength members。梁将来自屋顶和楼层的荷载转移到柱上，而柱则将这些荷载分配到基础。这种相互连接的元素系统创造了一个坚固的框架，可以承受诸如风、雪和地震活动等环境因素。如果没有足够的strength members，结构在压力下将容易崩溃。此外，用于strength members的材料在其有效性中也起着重要作用。工程师通常根据材料的拉伸和压缩强度选择材料。例如，钢因其高强度重量比而被广泛使用，允许更轻的结构仍能支撑重负荷。另一方面，混凝土因其压缩强度而受到青睐，非常适合用于柱和基础。strength members的设计和分析涉及复杂的计算和考虑。工程师必须考虑荷载分布、材料特性和安全裕度等因素。通常使用先进的软件工具来模拟这些构件在各种条件下的表现，以确保它们符合安全标准和规定。除了传统材料，现代工程还引入了创新解决方案，如复合材料和先进合金。这些材料可以增强strength members的性能，提供更大的耐用性和对环境降解的抵抗力。例如，纤维增强聚合物可用于加固现有混凝土结构，而不会增加显著的重量。此外，可持续性在strength members的设计中变得越来越重要。工程师现在面临着在保持安全性和性能的同时，寻找减少建设环境影响的方法。这包括使用回收材料和设计能源效率。总之，strength member的概念是工程和建筑领域的基础。这些结构元素确保建筑物和基础设施的安全性和耐用性。随着技术的进步和可持续性成为优先事项，对strength members的理解和应用将继续发展，未来将导致更安全、更高效的设计。