frame ovality

简明释义

肋骨椭圆度

英英释义

例句

1.The engineer measured the frame ovality to ensure it met the design specifications.

工程师测量了框架椭圆度以确保其符合设计规范。

2.During the inspection, we found that the frame ovality exceeded acceptable limits.

在检查过程中，我们发现框架椭圆度超过了可接受的限制。

3.High frame ovality can lead to structural weaknesses in the building.

高框架椭圆度可能导致建筑物的结构弱点。

4.Adjustments were made to reduce the frame ovality before final assembly.

在最终组装之前，进行了调整以减少框架椭圆度。

5.The technician used specialized tools to measure the frame ovality accurately.

技术人员使用专业工具准确测量框架椭圆度。

作文

In the world of engineering and manufacturing, precision is paramount. One term that often arises in discussions about structural integrity and design quality is frame ovality. This concept refers to the deviation of a frame's shape from a perfect circle or rectangle, resulting in an oval or distorted configuration. Understanding frame ovality is crucial for engineers and designers, as it can significantly affect the performance and durability of various structures, from vehicles to buildings.To grasp the importance of frame ovality, we must first consider the implications of having a non-uniform frame. When a frame is not perfectly shaped, it can lead to uneven stress distribution when loads are applied. For instance, in automotive design, if the frame of a car exhibits frame ovality, it may cause certain areas to bear more weight than others, leading to premature wear and tear. This can ultimately result in safety issues for the vehicle's occupants and increased maintenance costs for the owner.Moreover, frame ovality can impact the assembly process. In manufacturing environments, parts are designed to fit together with specific tolerances. If a frame is oval rather than rectangular, it may not align properly with other components, leading to difficulties during assembly. This misalignment can cause delays in production and increase the likelihood of defects in the final product.In construction, frame ovality can also pose significant challenges. A building's structural frame must be level and square to ensure stability and support. If the frame has ovality, it can lead to problems such as uneven floors, misaligned walls, and compromised structural integrity. Engineers must meticulously assess and correct any frame ovality before proceeding with construction to avoid these issues.To mitigate the effects of frame ovality, various techniques and technologies are employed in both manufacturing and construction. For example, advanced measurement tools such as laser scanning and 3D modeling can help detect deviations in the frame's shape early in the design process. By identifying frame ovality at this stage, engineers can make necessary adjustments before production begins, ensuring that the final product meets the required specifications.Furthermore, materials selection plays a critical role in addressing frame ovality. Using high-strength materials can reduce the likelihood of deformation under load, while innovative design approaches can enhance the overall rigidity of the frame. By combining these strategies, manufacturers and builders can minimize the impact of frame ovality on their projects.In summary, frame ovality is a vital consideration in the fields of engineering and manufacturing. Its effects can ripple through the entire lifecycle of a product, influencing everything from performance and safety to production efficiency. By understanding and addressing frame ovality, professionals can ensure the integrity and reliability of their designs, ultimately leading to better outcomes for both manufacturers and consumers. As technology continues to advance, the tools available for measuring and correcting frame ovality will only improve, paving the way for even higher standards in engineering and construction practices.

在工程和制造的世界中，精确性至关重要。一个常常出现在关于结构完整性和设计质量讨论中的术语是框架椭圆度。这个概念指的是框架形状偏离完美圆形或矩形的程度，导致其呈现出椭圆或扭曲的配置。理解框架椭圆度对工程师和设计师来说至关重要，因为它可以显著影响各种结构的性能和耐用性，从车辆到建筑物。要理解框架椭圆度的重要性，我们首先必须考虑非均匀框架所带来的影响。当一个框架没有完美的形状时，施加负载时可能会导致应力分布不均。例如，在汽车设计中，如果汽车的框架表现出框架椭圆度，某些区域可能承受比其他区域更多的重量，导致过早的磨损。这最终可能导致车辆乘员的安全问题以及车主增加的维护成本。此外，框架椭圆度还会影响组装过程。在制造环境中，零件的设计是为了符合特定的公差。如果一个框架呈椭圆而不是矩形，它可能无法与其他组件正确对齐，从而在组装过程中造成困难。这种错位可能导致生产延误，并增加最终产品缺陷的可能性。在建筑中，框架椭圆度也可能带来重大挑战。建筑的结构框架必须水平且方正，以确保稳定性和支撑。如果框架存在椭圆度，可能会导致地面不平、墙壁错位和结构完整性受到损害。工程师必须仔细评估并纠正任何框架椭圆度，然后才能继续施工，以避免这些问题。为了减轻框架椭圆度的影响，各种技术和技术在制造和建筑中被采用。例如，激光扫描和三维建模等先进测量工具可以帮助在设计过程的早期阶段检测框架形状的偏差。通过在这一阶段识别框架椭圆度，工程师可以在生产开始之前进行必要的调整，确保最终产品符合所需的规格。此外，材料选择在解决框架椭圆度方面也发挥着关键作用。使用高强度材料可以减少在负载下变形的可能性，而创新的设计方法可以增强框架的整体刚度。通过结合这些策略，制造商和建筑商可以将框架椭圆度对其项目的影响降至最低。总之，框架椭圆度是工程和制造领域的重要考虑因素。其影响可以贯穿产品的整个生命周期，影响从性能和安全到生产效率的方方面面。通过理解和解决框架椭圆度，专业人士可以确保其设计的完整性和可靠性，最终为制造商和消费者带来更好的结果。随着技术的不断进步，可用于测量和纠正框架椭圆度的工具只会不断改善，为工程和建筑实践的更高标准铺平道路。