reliability of structure

简明释义

结构的可靠性

英英释义

例句

1.Regular inspections help maintain the reliability of structure over time.

定期检查有助于维护结构可靠性。

2.Testing materials is essential for assessing the reliability of structure in high-rise buildings.

测试材料对于评估高层建筑的结构可靠性至关重要。

3.The engineers conducted tests to ensure the reliability of structure in the new bridge design.

工程师进行了测试，以确保新桥设计的结构可靠性。

4.The architect emphasized the importance of the reliability of structure in her presentation.

建筑师在她的演示中强调了结构可靠性的重要性。

5.In construction, the reliability of structure is crucial for the safety of occupants.

在建筑中，结构可靠性对居住者的安全至关重要。

作文

The concept of reliability of structure is vital in various fields, particularly in engineering and architecture. It refers to the ability of a structure to perform its intended function over time without failure. This reliability is crucial not only for the safety of the users but also for the longevity of the structure itself. In engineering, a reliable structure must withstand various loads, such as weight, environmental forces, and even unexpected events like earthquakes or floods. The reliability of structure ensures that buildings, bridges, and other infrastructures can endure these stresses without collapsing or sustaining significant damage.To achieve high reliability of structure, engineers employ a range of techniques and materials. Advanced materials like reinforced concrete, steel, and composite materials are often used to enhance strength and durability. Furthermore, computer simulations and modeling are essential tools in modern engineering. They allow engineers to predict how structures will behave under different conditions, thus identifying potential weaknesses before construction begins. This proactive approach significantly improves the reliability of structure and minimizes risks associated with structural failures.In architecture, the reliability of structure goes hand in hand with aesthetic considerations. Architects strive to create visually appealing designs while ensuring that these structures are safe and reliable. For instance, iconic skyscrapers must not only look impressive but also be able to withstand high winds and seismic activities. The balance between beauty and functionality is a challenge that architects face daily, and the reliability of structure is a critical factor in achieving this balance.Moreover, the reliability of structure has significant economic implications. A reliable structure reduces maintenance costs and prolongs the lifespan of buildings and infrastructure. When structures fail, the costs associated with repairs, legal issues, and loss of reputation can be astronomical. Therefore, investing in the reliability of structure during the design and construction phases pays off in the long run.Environmental factors also play a role in the reliability of structure. As climate change leads to more extreme weather patterns, structures must be designed to handle these new challenges. Engineers and architects must consider future conditions when designing buildings to ensure their reliability over time. This foresight is essential in creating sustainable structures that can adapt to changing environments.In conclusion, the reliability of structure is a multifaceted concept that encompasses safety, aesthetics, economic viability, and environmental considerations. It requires collaboration between engineers and architects to create structures that are not only functional but also enduring. As we continue to innovate and push the boundaries of design and construction, the importance of ensuring the reliability of structure will only grow. Ultimately, it is the reliability of our structures that supports our communities and shapes our world.

“结构的可靠性”这一概念在多个领域中至关重要，尤其是在工程和建筑领域。它指的是结构在没有故障的情况下，能够长时间执行其预定功能的能力。这种可靠性不仅对用户的安全至关重要，也关系到结构本身的耐用性。在工程中，一个可靠的结构必须承受各种负荷，例如重量、环境力量，甚至是地震或洪水等意外事件。“结构的可靠性”确保建筑物、桥梁和其他基础设施能够承受这些压力，而不会倒塌或遭受重大损坏。为了实现高水平的“结构的可靠性”，工程师采用一系列技术和材料。先进的材料如钢筋混凝土、钢材和复合材料通常用于增强强度和耐用性。此外，计算机模拟和建模是现代工程中的重要工具。它们使工程师能够预测结构在不同条件下的表现，从而在施工开始之前识别潜在的弱点。这种主动的方法显著提高了“结构的可靠性”，并最小化了与结构故障相关的风险。在建筑设计中，“结构的可靠性”与美学考虑密切相关。建筑师努力创造视觉上令人愉悦的设计，同时确保这些结构是安全和可靠的。例如，标志性的摩天大楼不仅必须看起来令人印象深刻，还必须能够承受强风和地震活动。美与功能之间的平衡是建筑师每天面临的挑战，而“结构的可靠性”是实现这种平衡的关键因素。此外，“结构的可靠性”具有重要的经济意义。一个可靠的结构可以减少维护成本并延长建筑物和基础设施的使用寿命。当结构发生故障时，维修、法律问题和声誉损失等相关费用可能是天文数字。因此，在设计和施工阶段投资于“结构的可靠性”从长远来看是值得的。环境因素也在“结构的可靠性”中发挥着作用。随着气候变化导致更极端的天气模式，结构必须设计成能够应对这些新挑战。工程师和建筑师在设计建筑时必须考虑未来的条件，以确保其长期的可靠性。这种前瞻性对于创建能够适应变化环境的可持续结构至关重要。总之，“结构的可靠性”是一个多方面的概念，涵盖了安全、美学、经济可行性和环境考虑。它需要工程师和建筑师之间的合作，以创造既实用又持久的结构。随着我们不断创新并推动设计和施工的边界，确保“结构的可靠性”的重要性只会增加。最终，正是我们结构的可靠性支撑着我们的社区，并塑造着我们的世界。