frame bulge

简明释义

肋骨球缘

英英释义

例句

1.The technician noticed a slight frame bulge 框架隆起 on the side of the vehicle during the inspection.

技术人员在检查过程中注意到车辆侧面有轻微的框架隆起。

2.Due to the intense heat, the frame bulge 框架隆起 was more pronounced in the old building.

由于高温，老建筑中的框架隆起更加明显。

3.After the storm, many houses showed signs of frame bulge 框架隆起 due to water damage.

暴风雨过后，许多房屋因水损坏而显示出框架隆起的迹象。

4.The manufacturer issued a recall for bikes that had a known issue with frame bulge 框架隆起.

制造商对存在已知框架隆起问题的自行车发出了召回通知。

5.The designer had to adjust the measurements because of an unexpected frame bulge 框架隆起 in the structure.

设计师不得不调整测量，因为结构中出现了意外的框架隆起。

作文

The concept of frame bulge refers to a structural deformation that occurs in various materials and constructions, particularly in the context of engineering and architecture. Understanding this phenomenon is crucial for professionals in these fields, as it can significantly impact the integrity and safety of structures. A frame bulge typically manifests as a protrusion or distortion in the frame of a building, vehicle, or any other constructed entity, often resulting from stress, pressure, or thermal expansion. In this essay, we will explore the causes, implications, and solutions associated with frame bulge. One of the primary causes of frame bulge is the application of excessive load on a structure. For instance, in buildings, if the weight of the roof exceeds the designed load-bearing capacity of the walls and foundation, the frame may begin to warp. This is particularly common in older buildings that were not designed to accommodate modern weights and loads. Additionally, environmental factors such as high winds or seismic activity can induce stress on a structure, leading to a frame bulge. Thermal expansion is another significant factor contributing to frame bulge. Materials expand and contract with temperature changes, and if these movements are not adequately accounted for in the design, it can result in distortions. For example, metal frames in buildings can expand during hot weather, causing the joints to shift and creating a frame bulge. This issue is often exacerbated in regions with extreme temperature fluctuations, where the materials undergo repeated cycles of expansion and contraction. The implications of a frame bulge can be severe. Not only does it affect the aesthetic appeal of a structure, but it can also compromise its structural integrity. A bulging frame can lead to uneven weight distribution, which may cause further damage over time, potentially resulting in catastrophic failures. For vehicles, a frame bulge can impair handling, increase wear on components, and even pose safety risks to passengers. Therefore, recognizing and addressing frame bulge is vital for maintenance and safety. To mitigate the risks associated with frame bulge, engineers and architects must implement effective design strategies. This includes using materials that can withstand the expected loads and environmental conditions, as well as incorporating features that allow for movement, such as expansion joints. Regular inspections and maintenance are also essential to identify early signs of frame bulge and address them before they escalate into more significant problems. For existing structures, retrofitting may be necessary to enhance their resilience against potential bulging. In conclusion, understanding frame bulge is critical for anyone involved in construction or engineering. By recognizing its causes and implications, professionals can take proactive steps to prevent it from occurring or escalating. The safety and longevity of structures depend on our ability to manage and mitigate the effects of frame bulge. As we continue to develop and innovate in the field of construction, the importance of addressing this issue will only grow, underscoring the need for ongoing research and education in structural integrity.

“框架膨胀”这一概念指的是在各种材料和结构中发生的结构变形，特别是在工程和建筑的背景下。理解这一现象对这些领域的专业人士至关重要，因为它可能会显著影响结构的完整性和安全性。“框架膨胀”通常表现为建筑、车辆或其他任何构建实体框架的突出或扭曲，通常是由于应力、压力或热膨胀引起的。在本文中，我们将探讨与“框架膨胀”相关的原因、影响和解决方案。“框架膨胀”的主要原因之一是对结构施加过大的负荷。例如，在建筑中，如果屋顶的重量超过了墙壁和基础设计的承载能力，框架可能会开始扭曲。这在未设计为承受现代重量和负荷的老建筑中尤为常见。此外，高风或地震活动等环境因素也会对结构施加应力，导致“框架膨胀”。热膨胀是导致“框架膨胀”的另一个重要因素。材料会随着温度变化而膨胀和收缩，如果在设计中没有充分考虑这些运动，可能会导致扭曲。例如，建筑中的金属框架在炎热天气中可能会膨胀，导致接头移动并形成“框架膨胀”。在温差极大的地区，这一问题往往会加剧，因为材料经历重复的膨胀和收缩周期。“框架膨胀”的影响可能是严重的。它不仅会影响结构的美观，还可能危及其结构完整性。膨胀的框架可能导致不均匀的重量分布，随着时间推移可能会造成进一步的损坏，甚至导致灾难性的失败。对于车辆而言，“框架膨胀”可能会影响操控，增加部件磨损，甚至对乘客构成安全风险。因此，识别和处理“框架膨胀”对维护和安全至关重要。为了减轻与“框架膨胀”相关的风险，工程师和建筑师必须实施有效的设计策略。这包括使用能够承受预期负荷和环境条件的材料，以及结合允许运动的特性，如膨胀缝。定期检查和维护也是至关重要的，以识别“框架膨胀”的早期迹象，并在问题升级之前予以解决。对于现有结构，可能需要进行加固，以增强其抵御潜在膨胀的能力。总之，理解“框架膨胀”对任何参与建筑或工程的人来说都是至关重要的。通过认识其原因和影响，专业人士可以采取主动措施，防止其发生或升级。结构的安全性和耐久性取决于我们管理和减轻“框架膨胀”影响的能力。随着我们在建筑领域的不断发展和创新，解决这一问题的重要性只会增加，突显出在结构完整性方面进行持续研究和教育的必要性。