structural distortion

简明释义

结构变形

英英释义

例句

1.The architect noted that the building exhibited significant structural distortion due to poor foundation work.

建筑师注意到，由于基础施工不当，建筑物出现了显著的结构扭曲。

2.During the inspection, the engineer found structural distortion in the steel beams, which could compromise safety.

在检查过程中，工程师发现钢梁存在结构扭曲，这可能会影响安全性。

3.The report highlighted that structural distortion could lead to increased maintenance costs over time.

报告强调，结构扭曲可能会导致随着时间推移而增加的维护成本。

4.The team used advanced imaging techniques to detect structural distortion in the bridge.

团队使用先进的成像技术检测桥梁中的结构扭曲。

5.After the earthquake, many buildings showed signs of structural distortion that required immediate attention.

地震后，许多建筑显示出需要立即处理的结构扭曲迹象。

作文

In the realm of architecture and engineering, the term structural distortion refers to the alteration or deviation from the original design and form of a structure. This phenomenon can occur due to various factors such as environmental changes, material fatigue, or improper construction techniques. Understanding structural distortion is crucial for ensuring the safety and longevity of buildings and other constructions.For instance, consider a bridge that has been in use for several decades. Over time, it may experience structural distortion due to the constant stress of heavy traffic, temperature fluctuations, and natural wear and tear. Engineers must regularly assess the integrity of such structures to identify any signs of structural distortion. If left unchecked, these distortions can lead to severe consequences, including structural failure, which could endanger lives and result in significant financial losses.Moreover, structural distortion can also be observed in geological formations. For example, tectonic movements can cause shifts in the Earth’s crust, leading to the bending or breaking of rock layers. These geological distortions can have profound effects on the landscape, influencing everything from the formation of mountains to the occurrence of earthquakes. Understanding these processes helps geologists predict natural disasters and assess risks in various regions.In addition to engineering and geology, structural distortion can apply to other fields, such as biology. In the study of proteins, structural distortion refers to the misfolding of protein structures, which can lead to diseases such as Alzheimer's or Parkinson's. Researchers are continuously exploring the mechanisms behind these distortions to develop effective treatments and therapies.The implications of structural distortion are vast and varied across different domains. In architecture, it emphasizes the importance of meticulous planning and regular maintenance. In geology, it highlights the dynamic nature of our planet and the need for preparedness against natural disasters. In biology, it underscores the complexities of life at the molecular level and the potential for medical advancements through understanding these distortions.In conclusion, structural distortion is a multifaceted concept that transcends disciplines. Its understanding is vital for professionals in architecture, engineering, geology, and biology, among others. By recognizing the causes and effects of structural distortion, we can better protect our infrastructures, understand our planet, and improve health outcomes. As we face the challenges of the modern world, a comprehensive grasp of such concepts will enable us to innovate and adapt effectively, ensuring a safer and more sustainable future.

在建筑和工程领域，术语结构扭曲指的是结构的原始设计和形状的改变或偏离。这种现象可能由于多种因素引起，例如环境变化、材料疲劳或不当的施工技术。理解结构扭曲对于确保建筑物和其他建筑物的安全性和耐久性至关重要。例如，考虑一座使用了几十年的桥梁。随着时间的推移，由于重型交通的持续压力、温度波动和自然磨损，它可能会经历结构扭曲。工程师必须定期评估此类结构的完整性，以识别任何结构扭曲的迹象。如果不加以控制，这些扭曲可能导致严重后果，包括结构失效，这可能危及生命并造成重大经济损失。此外，结构扭曲也可以在地质构造中观察到。例如，构造运动可以导致地壳的移动，从而导致岩层的弯曲或断裂。这些地质扭曲对地形产生深远影响，影响从山脉的形成到地震的发生。理解这些过程有助于地质学家预测自然灾害并评估各地区的风险。除了工程和地质学，结构扭曲还可以应用于其他领域，例如生物学。在蛋白质研究中，结构扭曲指的是蛋白质结构的错误折叠，这可能导致阿尔茨海默病或帕金森病等疾病。研究人员不断探索这些扭曲背后的机制，以开发有效的治疗方法和疗法。结构扭曲的影响在不同领域是广泛而多样的。在建筑中，它强调了细致规划和定期维护的重要性。在地质学中，它突显了我们星球的动态特性以及对自然灾害的准备需求。在生物学中，它强调了分子水平上生命的复杂性，以及通过理解这些扭曲来改善健康结果的潜力。总之，结构扭曲是一个跨学科的多面概念。其理解对建筑、工程、地质学和生物学等专业人士至关重要。通过认识结构扭曲的原因和影响，我们可以更好地保护我们的基础设施、理解我们的星球并改善健康结果。面对现代世界的挑战，全面掌握这样的概念将使我们能够有效创新和适应，确保一个更安全、更可持续的未来。