structural imperfection

简明释义

结构不完整性

英英释义

例句

1.The engineer identified a structural imperfection in the building that could lead to safety issues.

工程师发现了建筑中的结构缺陷，这可能导致安全问题。

2.Due to a structural imperfection, the bridge was closed for repairs.

由于结构缺陷，桥梁被关闭进行维修。

3.The architect had to redesign the plans after discovering a structural imperfection in the original design.

在发现原设计中的结构缺陷后，建筑师不得不重新设计方案。

4.The contractor was held responsible for the structural imperfection that caused the building to settle unevenly.

承包商因造成建筑不均匀沉降的结构缺陷而被追究责任。

5.A thorough inspection revealed a structural imperfection that required immediate attention.

彻底检查发现了一个需要立即处理的结构缺陷。

作文

In the realm of engineering and architecture, the term structural imperfection refers to deviations from ideal geometric configurations that can occur during the construction process. These imperfections can manifest in various forms, such as misalignments, uneven surfaces, or material inconsistencies. While many may perceive these flaws as detrimental to the integrity of a structure, they can also provide valuable insights into the behavior and performance of materials under stress. Understanding structural imperfection is crucial for engineers and architects alike, as it allows them to design structures that are not only aesthetically pleasing but also resilient and durable.For instance, consider the famous Leaning Tower of Pisa. This iconic structure is a prime example of how structural imperfection can lead to unexpected outcomes. Originally designed to stand vertically, the tower began to lean during its construction due to an inadequate foundation and the soft ground beneath it. Instead of being deemed a failure, this flaw has become a significant tourist attraction and a subject of study for engineers worldwide. It highlights how structural imperfection can influence a building's design and longevity.Moreover, in the field of materials science, researchers often explore structural imperfection in order to enhance the performance of new materials. For instance, scientists have discovered that certain imperfections in crystal structures can actually improve the strength and ductility of metals. By intentionally introducing structural imperfection, they can create materials that are better suited for high-stress applications, such as aerospace engineering or automotive manufacturing.Furthermore, the concept of structural imperfection extends beyond physical structures. In the context of social systems and organizations, imperfections can also be observed. Just as a building may have flaws, so too can a company's organizational structure. These imperfections can lead to inefficiencies or communication breakdowns, but they can also serve as opportunities for growth and improvement. Recognizing and addressing structural imperfection within an organization can foster innovation and adaptability, ultimately leading to greater success.In conclusion, while structural imperfection may initially seem like a negative aspect of design and construction, it is essential to appreciate its multifaceted nature. From architectural marvels like the Leaning Tower of Pisa to advancements in materials science and organizational development, understanding and embracing imperfections can lead to innovative solutions and improved outcomes. Instead of striving for perfection, we should recognize the value of structural imperfection and its potential to inspire creativity and resilience in both our physical and social environments.

在工程和建筑领域，术语结构缺陷指的是在施工过程中可能出现的与理想几何配置的偏差。这些缺陷可以以各种形式表现出来，例如对齐不当、不平整的表面或材料的不一致性。虽然许多人可能认为这些缺陷对结构的完整性有害，但它们也可以提供有关材料在应力下行为和性能的宝贵见解。理解结构缺陷对于工程师和建筑师来说至关重要，因为这使他们能够设计出不仅美观而且坚固耐用的结构。例如，考虑著名的比萨斜塔。这个标志性建筑是结构缺陷如何导致意想不到结果的一个典型例子。原本设计为垂直的塔，在施工过程中由于基础不足和下面软土的原因开始倾斜。这个缺陷并没有被视为失败，而是成为了一个重要的旅游景点和全球工程师研究的主题。它突显了结构缺陷如何影响建筑的设计和耐久性。此外，在材料科学领域，研究人员常常探索结构缺陷以增强新材料的性能。例如，科学家们发现某些晶体结构中的缺陷实际上可以提高金属的强度和延展性。通过故意引入结构缺陷，他们可以创造出更适合高应力应用的材料，例如航空工程或汽车制造。此外，结构缺陷的概念超越了物理结构。在社会系统和组织的背景下，也可以观察到缺陷。就像一栋建筑可能有缺陷一样，一家公司也可能有其组织结构上的缺陷。这些缺陷可能导致低效率或沟通障碍，但它们也可以作为成长和改进的机会。识别和解决组织内的结构缺陷可以促进创新和适应能力，从而最终带来更大的成功。总之，虽然结构缺陷最初看起来可能是设计和施工的负面方面，但理解其多面性是至关重要的。从比萨斜塔这样的建筑奇迹到材料科学的进步和组织发展的创新，理解和接受缺陷可以带来创新的解决方案和改善的结果。我们应该认识到结构缺陷的价值及其在我们的物理和社会环境中激发创造力和韧性的潜力，而不是追求完美。