structural strength

简明释义

结构强度

英英释义

例句

1.Innovative designs can enhance the structural strength of skyscrapers.

创新设计可以增强摩天大楼的结构强度。

2.The engineer conducted tests to measure the structural strength of the new bridge design.

工程师进行了测试，以测量新桥设计的结构强度。

3.Regular inspections are necessary to maintain the structural strength of aging infrastructure.

定期检查是维持老化基础设施的结构强度所必需的。

4.The building's structural strength was compromised after the earthquake.

地震后，建筑物的结构强度受到了影响。

5.Before construction, it is crucial to assess the structural strength of the materials used.

在施工之前，评估所用材料的结构强度至关重要。

作文

The concept of structural strength is pivotal in various fields, particularly in engineering and architecture. It refers to the ability of a structure to withstand its intended load without experiencing failure, deformation, or collapse. Understanding structural strength is essential for designing safe and durable buildings, bridges, and other infrastructures. Engineers must consider various factors that contribute to structural strength, including the materials used, the design of the structure, and the environmental conditions it will face.In engineering, the analysis of structural strength involves calculations and simulations to predict how a structure will behave under different loads. For example, when designing a bridge, engineers must account for the weight of vehicles, wind forces, and even seismic activity. The materials chosen for construction, such as steel, concrete, or wood, have unique properties that affect their structural strength. Steel is known for its high tensile strength, making it ideal for large spans, while concrete is favored for its compressive strength, which helps support heavy loads.Moreover, the design of the structure itself plays a crucial role in ensuring structural strength. Engineers often employ geometric shapes that distribute forces evenly throughout the structure. Triangular formations, for instance, are commonly used in trusses because they provide stability and prevent deformation. By optimizing the design, engineers can enhance the structural strength while minimizing material use, leading to more sustainable construction practices.Environmental factors also impact structural strength. Structures must be designed to endure various conditions, such as temperature fluctuations, moisture, and potential natural disasters. For instance, buildings in earthquake-prone areas require specific designs that allow for flexibility and energy dissipation to prevent catastrophic failure. Similarly, coastal structures must resist corrosion from saltwater and withstand strong winds from storms. Therefore, understanding the interplay between environmental conditions and structural strength is vital for long-lasting infrastructure.In conclusion, structural strength is a fundamental aspect of engineering and architecture that ensures the safety and durability of structures. By considering materials, design, and environmental factors, engineers can create resilient infrastructures that serve communities effectively. As our world continues to evolve, the importance of mastering structural strength will only increase, paving the way for innovative solutions to meet the demands of modern society. Ultimately, a thorough comprehension of structural strength not only protects lives but also contributes to the sustainability of our built environment.

“结构强度”这一概念在多个领域中至关重要，尤其是在工程和建筑学中。它指的是一个结构在不发生故障、变形或崩溃的情况下承受其预期负载的能力。理解“结构强度”对于设计安全且耐用的建筑、桥梁及其他基础设施至关重要。工程师必须考虑多种影响“结构强度”的因素，包括所用材料、结构设计及其所面临的环境条件。在工程学中，“结构强度”的分析涉及计算和模拟，以预测结构在不同负载下的表现。例如，在设计一座桥时，工程师必须考虑车辆的重量、风力甚至地震活动。所选择的建筑材料，如钢、混凝土或木材，具有独特的性质，影响其“结构强度”。钢以其高抗拉强度而闻名，适合大跨度的结构，而混凝土则因其抗压强度而受到青睐，可以支持重负荷。此外，结构本身的设计在确保“结构强度”方面也发挥着关键作用。工程师通常采用几何形状，使力量均匀分布在整个结构上。例如，三角形结构常用于桁架，因为它们提供稳定性并防止变形。通过优化设计，工程师可以增强“结构强度”，同时减少材料使用，从而实现更可持续的建筑实践。环境因素也会影响“结构强度”。结构必须设计成能够承受各种条件，例如温度波动、湿气以及潜在的自然灾害。例如，位于地震多发区的建筑需要特定的设计，以允许灵活性和能量耗散，以防止灾难性失败。同样，沿海结构必须抵御盐水腐蚀，并能够承受风暴带来的强风。因此，理解环境条件与“结构强度”之间的相互作用对于基础设施的持久性至关重要。总之，“结构强度”是工程和建筑学的基本方面，确保结构的安全性和耐久性。通过考虑材料、设计和环境因素，工程师可以创建出坚固的基础设施，有效服务于社区。随着我们世界的不断发展，掌握“结构强度”的重要性只会增加，为满足现代社会的需求铺平道路。最终，深入理解“结构强度”不仅保护生命，还为我们建成环境的可持续性做出贡献。