angular distortion
简明释义
角变形
英英释义
例句
1.The architect had to adjust the design to minimize angular distortion 角度扭曲 during construction.
建筑师必须调整设计,以最小化施工过程中的angular distortion 角度扭曲。
2.The team used advanced software to analyze the angular distortion 角度扭曲 in the simulation model.
团队使用先进的软件分析模拟模型中的angular distortion 角度扭曲。
3.During the calibration of the optical system, angular distortion 角度扭曲 was measured to ensure accurate imaging.
在光学系统的校准过程中,测量了angular distortion 角度扭曲以确保成像准确。
4.In the 3D printing process, angular distortion 角度扭曲 can occur if the material cools unevenly.
在3D打印过程中,如果材料冷却不均匀,可能会发生angular distortion 角度扭曲。
5.The engineer noted that the angular distortion 角度扭曲 in the metal frame could lead to structural failure.
工程师指出,金属框架中的angular distortion 角度扭曲可能导致结构失效。
作文
In the field of geometry and engineering, understanding various types of distortions is crucial for accurate modeling and design. One such term that often comes up is angular distortion. This concept refers to the change in angles between structural elements or components due to various factors such as thermal expansion, mechanical stress, or manufacturing processes. For instance, when a metal beam is heated, it may expand unevenly, leading to a angular distortion that can compromise the integrity of a structure. Engineers must account for these distortions during the design phase to ensure safety and functionality.When designing buildings, bridges, or any other structures, architects and engineers utilize precise calculations to predict how materials will behave under different conditions. If angular distortion occurs, it can lead to misalignment of joints, increased stress on certain components, and ultimately, structural failure. This makes it essential to understand the causes of angular distortion and implement measures to mitigate its effects.One common cause of angular distortion is welding. During the welding process, localized heating can cause parts of a structure to expand and contract at different rates. This differential movement can result in permanent changes to the angles between connected parts. To minimize angular distortion, engineers often use techniques such as preheating materials, controlling the cooling rate, and carefully sequencing welds.Another factor contributing to angular distortion is temperature fluctuations. For example, in regions with extreme temperature variations, materials may expand during the heat of the day and contract at night. Over time, this cyclical expansion and contraction can lead to cumulative angular distortion, affecting the overall stability of a structure. To counteract this, builders might incorporate expansion joints into their designs, allowing for movement without compromising structural integrity.Moreover, angular distortion can also be influenced by the weight distribution of a structure. If one side of a building is subjected to more load than the other, it can cause a tilt, leading to a change in angles between walls and floors. This not only affects the aesthetic appeal of the structure but also poses serious safety risks. Therefore, proper load analysis is vital during the design process to prevent such issues.In conclusion, angular distortion is a significant concern in engineering and architecture that arises from various factors including thermal expansion, welding processes, and uneven weight distribution. Understanding and addressing angular distortion is essential for ensuring the safety and longevity of structures. By employing careful design strategies and construction techniques, engineers can mitigate the risks associated with angular distortion and create resilient, stable structures that stand the test of time.
在几何和工程领域,理解各种类型的变形对准确建模和设计至关重要。其中一个常见的术语是角度畸变。这个概念指的是由于热膨胀、机械应力或制造过程等各种因素导致的结构元素或组件之间角度的变化。例如,当金属梁被加热时,它可能不均匀地膨胀,导致角度畸变,这可能会危及结构的完整性。工程师必须在设计阶段考虑这些变形,以确保安全和功能。在设计建筑、桥梁或任何其他结构时,建筑师和工程师利用精确的计算来预测材料在不同条件下的行为。如果发生角度畸变,可能会导致接头错位、某些部件的应力增加,最终导致结构失效。因此,了解角度畸变的原因并采取措施减轻其影响至关重要。焊接是导致角度畸变的一个常见原因。在焊接过程中,局部加热可能导致结构的某些部分以不同的速度膨胀和收缩。这种差异运动可能导致连接部件之间角度的永久变化。为了最小化角度畸变,工程师通常使用预热材料、控制冷却速率和谨慎安排焊接顺序等技术。温度波动也是导致角度畸变的一个因素。例如,在温度变化极端的地区,材料可能在白天的高温下膨胀,而在夜间收缩。随着时间的推移,这种周期性的膨胀和收缩可能导致累积的角度畸变,影响结构的整体稳定性。为了对抗这一点,建筑商可能会在设计中加入伸缩缝,允许在不妨碍结构完整性的情况下移动。此外,角度畸变还可能受到结构重量分布的影响。如果建筑的一侧承受的负荷超过另一侧,可能会导致倾斜,从而改变墙壁和地板之间的角度。这不仅影响结构的美观,还带来严重的安全风险。因此,在设计过程中进行适当的荷载分析对于防止此类问题至关重要。总之,角度畸变是工程和建筑中一个重要的关注点,源于热膨胀、焊接过程和不均匀重量分布等各种因素。理解和解决角度畸变对于确保结构的安全性和耐久性至关重要。通过采用谨慎的设计策略和施工技术,工程师可以减轻与角度畸变相关的风险,创造出经得起时间考验的坚固、稳定的结构。
