structural performance

简明释义

结构特性

英英释义

例句

1.Improving the structural performance of buildings can lead to better safety during earthquakes.

提高建筑物的结构性能可以在地震期间提高安全性。

2.The engineer conducted tests to evaluate the structural performance of the new bridge design.

工程师进行了测试，以评估新桥设计的结构性能。

3.Regular inspections are necessary to ensure the structural performance of aging infrastructure.

定期检查是确保老化基础设施的结构性能所必需的。

4.The materials used in construction greatly affect the structural performance of the final product.

建筑中使用的材料极大影响最终产品的结构性能。

5.Innovative designs can enhance the structural performance of high-rise buildings.

创新设计可以增强高层建筑的结构性能。

作文

The term structural performance refers to how well a structure can withstand various loads and forces while maintaining its integrity and functionality. In engineering and architecture, understanding structural performance is crucial for designing safe and durable buildings, bridges, and other infrastructures. Various factors influence structural performance, including the materials used, the design of the structure, and the environmental conditions it faces.For instance, when engineers design a skyscraper, they must consider wind loads, seismic activity, and the weight of the building itself. The structural performance of the building will depend on how these forces interact with the materials chosen for construction. Steel and concrete are commonly used because of their high strength-to-weight ratios, which contribute positively to structural performance. Moreover, the design of a structure plays a significant role in its structural performance. An architect may choose a specific shape or layout that distributes loads more evenly, thereby enhancing the overall stability of the building. For example, triangular shapes are often used in trusses because they provide excellent load distribution and improve structural performance under tension and compression.Environmental factors also affect structural performance. A bridge located in an area prone to earthquakes must be designed differently than one in a region with minimal seismic activity. Engineers use advanced modeling techniques and simulations to predict how structures will respond to such forces, ensuring that structural performance is optimized for the specific location.Testing is another critical aspect of evaluating structural performance. Before a building is completed, engineers conduct tests to assess how well the materials and design can handle expected loads. This may involve stress testing materials, conducting load tests on structural components, and using computer simulations to predict performance under various scenarios. These tests help identify potential weaknesses and allow for adjustments to be made before construction is finalized, thus enhancing structural performance.In conclusion, structural performance is a vital concept in engineering and architecture that encompasses the ability of structures to support loads and resist forces while remaining safe and functional. By carefully considering materials, design, environmental factors, and rigorous testing, engineers can ensure that structures meet the necessary standards for safety and durability. The importance of structural performance cannot be overstated, as it directly impacts the longevity and reliability of the infrastructure we depend on every day.

术语structural performance指的是一个结构在承受各种荷载和力时，保持其完整性和功能的能力。在工程和建筑领域，理解structural performance对于设计安全和耐用的建筑、桥梁及其他基础设施至关重要。影响structural performance的因素有很多，包括所使用的材料、结构的设计以及它所面临的环境条件。例如，当工程师设计一座摩天大楼时，他们必须考虑风荷载、地震活动以及建筑物自身的重量。建筑的structural performance将取决于这些力量与所选建筑材料的相互作用。钢材和混凝土因其高强度与重量比而被广泛使用，这对提升structural performance有积极的贡献。此外，结构的设计在其structural performance中也扮演着重要角色。建筑师可能会选择特定的形状或布局，以更均匀地分布荷载，从而增强建筑的整体稳定性。例如，三角形形状常用于桁架，因为它们在拉伸和压缩下提供了出色的荷载分配，并改善了structural performance。环境因素也会影响structural performance。位于地震多发区的桥梁必须与位于地震活动较少地区的桥梁设计不同。工程师使用先进的建模技术和模拟来预测结构如何应对这些力量，从而确保structural performance针对特定位置得到优化。测试是评估structural performance的另一个关键方面。在建筑完成之前，工程师会进行测试，以评估材料和设计在承受预期荷载时的表现。这可能涉及对材料进行应力测试、对结构部件进行荷载测试，以及使用计算机模拟来预测在各种情况下的表现。这些测试有助于识别潜在的弱点，并允许在最终确定施工之前进行调整，从而提高structural performance。总之，structural performance是在工程和建筑中一个至关重要的概念，它涵盖了结构支撑荷载和抵抗力量的能力，同时保持安全和功能。通过仔细考虑材料、设计、环境因素及严格的测试，工程师可以确保结构符合安全和耐用的必要标准。structural performance的重要性不容小觑，因为它直接影响着我们每天依赖的基础设施的耐久性和可靠性。