structural integrity

简明释义

结构完整性

英英释义

例句

1.The engineers conducted a thorough analysis to ensure the structural integrity of the bridge after the earthquake.

工程师们进行了全面分析，以确保地震后桥梁的结构完整性。

2.Testing the structural integrity of the aircraft is crucial before any flight.

在任何飞行之前，测试飞机的结构完整性至关重要。

3.Regular inspections are necessary to maintain the structural integrity of old buildings.

定期检查是维护老建筑的结构完整性所必需的。

4.The construction team used advanced materials to enhance the structural integrity of the skyscraper.

施工团队使用先进材料来增强摩天大楼的结构完整性。

5.The report highlighted concerns about the structural integrity of the dam due to heavy rainfall.

报告强调了由于强降雨而对大坝的结构完整性的担忧。

作文

The concept of structural integrity refers to the ability of a structure to withstand its intended load without experiencing failure, deformation, or collapse. This principle is crucial in various fields, including engineering, architecture, and construction. Ensuring structural integrity is essential for the safety and longevity of buildings, bridges, and other infrastructures. In this essay, I will explore the importance of structural integrity and how it impacts our daily lives.First and foremost, the safety of occupants is the primary concern when it comes to structural integrity. Buildings are designed to support not only their own weight but also the weight of furniture, equipment, and people. If a structure fails to maintain its structural integrity, it can result in catastrophic consequences, including injuries or loss of life. For instance, the tragic collapse of the Rana Plaza in Bangladesh in 2013 highlighted the dire need for stringent regulations regarding structural integrity in construction practices. This incident serves as a reminder that neglecting the principles of structural integrity can have devastating outcomes.Moreover, structural integrity plays a significant role in the durability of structures. Over time, materials can degrade due to environmental factors such as moisture, temperature changes, and chemical exposure. Regular inspections and maintenance are necessary to ensure that a structure retains its structural integrity throughout its lifespan. For example, bridges require periodic assessments to identify any signs of wear and tear that could compromise their structural integrity. By addressing these issues promptly, engineers can extend the life of the structure and prevent costly repairs or replacements in the future.In addition to safety and durability, the economic implications of structural integrity cannot be overlooked. Investing in quality materials and construction practices that prioritize structural integrity may initially seem expensive; however, it ultimately saves money in the long run. Structures that are built with a focus on structural integrity require less frequent repairs and maintenance, reducing overall costs for property owners. Furthermore, buildings that adhere to high standards of structural integrity often have higher market values, making them more attractive to buyers and investors.Furthermore, the concept of structural integrity extends beyond physical structures. It can also apply to systems and organizations, where the integrity of the structure refers to the coherence and reliability of the components working together. For instance, in software engineering, the structural integrity of a program ensures that all modules function correctly and efficiently. Any weaknesses in the system can lead to failures, much like a physical structure. Therefore, understanding and maintaining structural integrity in both contexts is vital for success.In conclusion, structural integrity is a fundamental principle that underpins the safety, durability, and economic viability of structures. From ensuring the safety of individuals to extending the lifespan of buildings and optimizing costs, the significance of structural integrity cannot be overstated. As we continue to develop and innovate in construction and engineering, prioritizing structural integrity will remain essential to creating safe and sustainable environments for future generations.

“结构完整性”这一概念是指一个结构在承受其预期负荷时，能够在不发生故障、变形或倒塌的情况下保持其完整性的能力。这个原则在工程、建筑和施工等多个领域至关重要。确保“结构完整性”对于建筑物、桥梁和其他基础设施的安全性和耐久性至关重要。在这篇文章中，我将探讨“结构完整性”的重要性以及它如何影响我们的日常生活。首先，居住者的安全是确保“结构完整性”的首要关注点。建筑物的设计不仅要支撑自身的重量，还要支撑家具、设备和人员的重量。如果一个结构未能保持其“结构完整性”，可能会导致灾难性的后果，包括伤害或生命损失。例如，2013年孟加拉国拉纳广场的悲惨倒塌事件突显了在建筑实践中对“结构完整性”严格监管的迫切需要。这一事件提醒我们，忽视“结构完整性”的原则可能会导致毁灭性的结果。此外，“结构完整性”在结构的耐久性方面也起着重要作用。随着时间的推移，由于环境因素如湿气、温度变化和化学暴露，材料可能会退化。定期检查和维护是确保一个结构在其生命周期内保持“结构完整性”的必要措施。例如，桥梁需要定期评估，以识别任何可能危及其“结构完整性”的磨损迹象。通过及时解决这些问题，工程师可以延长结构的使用寿命，避免未来昂贵的维修或更换。除了安全性和耐久性之外，“结构完整性”的经济影响也不容忽视。投资于优质材料和注重“结构完整性”的施工实践，初看似乎成本高昂；然而，从长远来看，这最终节省了资金。以“结构完整性”为重点建造的结构需要更少的维修和维护，从而降低了物业所有者的整体成本。此外，遵循高标准的“结构完整性”的建筑通常具有更高的市场价值，使其对买家和投资者更具吸引力。此外，“结构完整性”的概念不仅限于物理结构。它也可以适用于系统和组织，其中结构的完整性指的是各个组件协同工作的连贯性和可靠性。例如，在软件工程中，程序的“结构完整性”确保所有模块正确且高效地运行。系统中的任何弱点都可能导致故障，就像物理结构一样。因此，理解和维护“结构完整性”在这两种情况下对于成功至关重要。总之，“结构完整性”是支撑结构安全性、耐久性和经济可行性的基本原则。从确保个人安全到延长建筑物的使用寿命和优化成本，“结构完整性”的重要性不容小觑。随着我们在建筑和工程领域的不断发展和创新，优先考虑“结构完整性”将继续是为未来几代人创造安全和可持续环境的关键。