structure failure

简明释义

结构故障

英英释义

例句

1.The report highlighted several instances of structure failure in older buildings.

报告强调了老旧建筑中几起结构失效的实例。

2.The team conducted tests to identify the cause of the structure failure.

团队进行了测试，以确定结构失效的原因。

3.Engineers are investigating the structure failure of the building.

工程师正在调查这座建筑的结构失效。

4.The bridge collapsed due to a structure failure.

由于结构失效，大桥倒塌了。

5.A structure failure can lead to serious safety hazards.

结构失效可能导致严重的安全隐患。

作文

Structural integrity is a crucial aspect of engineering and architecture. When we discuss the concept of structure failure, we are referring to the loss of load-bearing capacity of a structure, which can lead to catastrophic consequences. This phenomenon can occur in various forms, from minor cracks to complete collapses. Understanding the causes and implications of structure failure is essential for ensuring safety in construction and design.One of the primary reasons for structure failure is inadequate design. Engineers must consider numerous factors, including material properties, environmental conditions, and intended use. For example, a bridge designed to support heavy traffic must be constructed with materials that can withstand significant stress. If the design does not account for these factors, the bridge may experience structure failure under excessive loads.Another common cause of structure failure is poor construction practices. Even with a well-designed plan, if the construction team fails to follow the specifications or uses substandard materials, the structure may not perform as expected. An infamous example of this is the collapse of the Tacoma Narrows Bridge in 1940. The bridge was designed with insufficient consideration for aerodynamics, leading to its dramatic failure due to wind-induced oscillations. This event highlighted the importance of thorough testing and adherence to engineering standards to prevent structure failure.Environmental factors can also contribute to structure failure. Natural disasters such as earthquakes, floods, and hurricanes can exert forces on structures that exceed their designed limits. For instance, buildings in earthquake-prone areas must incorporate specific design features to absorb seismic energy. Failure to do so can result in devastating outcomes, as seen in the aftermath of the 2010 Haiti earthquake, where many structures collapsed due to inadequate seismic design.Maintenance is another critical factor in preventing structure failure. Over time, structures can deteriorate due to weathering, corrosion, or other forms of wear and tear. Regular inspections and maintenance are essential to identify potential issues before they escalate into significant problems. For example, bridges require periodic evaluations to ensure their structural health. Neglecting maintenance can lead to unforeseen structure failure, putting lives at risk.In conclusion, the concept of structure failure encompasses various aspects of engineering and construction. It serves as a reminder of the importance of proper design, construction practices, environmental considerations, and maintenance. By acknowledging and addressing these factors, engineers and architects can work towards creating safer and more reliable structures. The lessons learned from past structure failures continue to inform best practices in the field, ultimately contributing to a safer built environment for everyone.

结构完整性是工程和建筑的重要方面。当我们讨论结构失效的概念时，我们指的是结构的承载能力丧失，这可能导致灾难性的后果。这种现象可以以各种形式出现，从轻微的裂缝到完全的倒塌。理解结构失效的原因和影响对于确保建筑和设计的安全至关重要。结构失效的主要原因之一是设计不当。工程师必须考虑许多因素，包括材料特性、环境条件和预期用途。例如，设计用于支撑重型交通的桥梁必须使用能够承受重大压力的材料。如果设计没有考虑这些因素，桥梁在过大的负荷下可能会经历结构失效。结构失效的另一个常见原因是施工不当。即使有良好的设计计划，如果施工团队未能遵循规范或使用劣质材料，结构也可能无法按预期运行。1940年塔科马海峡大桥的倒塌就是一个臭名昭著的例子。该桥在设计时对空气动力学考虑不足，导致因风引起的振荡而戏剧性地失效。这一事件突显了彻底测试和遵循工程标准的重要性，以防止结构失效。环境因素也可能导致结构失效。自然灾害如地震、洪水和飓风可能对结构施加超出其设计极限的力量。例如，位于地震多发地区的建筑必须采用特定的设计特征来吸收地震能量。如果不这样做，可能会导致灾难性的结果，如2010年海地地震后的情况，许多结构因抗震设计不足而倒塌。维护是防止结构失效的另一个关键因素。随着时间的推移，结构可能因风化、腐蚀或其他磨损形式而退化。定期检查和维护对于在问题升级为重大问题之前识别潜在问题至关重要。例如，桥梁需要定期评估，以确保其结构健康。忽视维护可能导致不可预见的结构失效，危及生命。总之，结构失效的概念涵盖了工程和建筑的各个方面。它提醒我们正确的设计、施工实践、环境考虑和维护的重要性。通过承认和解决这些因素，工程师和建筑师可以努力创造更安全、更可靠的结构。从过去的结构失效中汲取的教训不断为该领域的最佳实践提供指导，最终为每个人创造一个更安全的建筑环境。