rivet snap

简明释义

铆钉模

英英释义

例句

1.After the rivet snap, we had to replace several parts of the machinery.

在铆钉断裂之后，我们不得不更换机器的几个部件。

2.The technician noticed a rivet snap during the inspection of the aircraft's wing.

技术人员在检查飞机机翼时注意到了一个铆钉断裂。

3.To prevent a rivet snap, it's essential to use the correct size and type of rivets for your project.

为了防止铆钉断裂，使用正确尺寸和类型的铆钉是至关重要的。

4.When the metal plate was under stress, the rivet snap caused a significant failure in the structure.

当金属板承受压力时，铆钉断裂导致结构发生重大故障。

5.During the assembly, one rivet snap led to delays in the production line.

在组装过程中，一个铆钉断裂导致生产线的延误。

作文

In the world of engineering and construction, there are many terms that may seem unfamiliar to the general public. One such term is rivet snap, which refers to a specific failure mode in riveted connections. Rivets are mechanical fasteners used to join two or more materials together, typically metal. They are widely used in various industries, including aerospace, automotive, and construction. The rivet snap occurs when a rivet fails due to excessive load or stress, causing it to break or 'snap' away from the joint. This failure can lead to catastrophic consequences, particularly in structures that rely heavily on the integrity of these connections.Understanding the mechanics behind a rivet snap is crucial for engineers and designers. When a rivet is installed, it is deformed to create a tight joint between the materials. However, if the load exceeds the rivet's capacity, the material can no longer hold the pieces together, leading to a sudden failure. This phenomenon can be exacerbated by factors such as fatigue, corrosion, or improper installation techniques.To prevent a rivet snap, engineers must carefully calculate the loads that will be applied to a structure and select rivets that are appropriate for those loads. Additionally, regular inspections and maintenance are essential to identify any signs of wear or damage before they lead to failure. In some cases, it may be necessary to replace rivets that show signs of fatigue or deterioration.The implications of a rivet snap extend beyond just the mechanical failure of a joint. For example, in the aviation industry, a failed rivet can compromise the safety of an aircraft, potentially leading to accidents. This highlights the importance of rigorous testing and quality assurance processes in the manufacturing of riveted components. Engineers often conduct simulations and stress tests to ensure that rivets can withstand the conditions they will face in real-world applications.Moreover, the use of advanced materials and technologies has opened new avenues for improving the reliability of riveted joints. For instance, the development of high-strength alloys and innovative fastening techniques can enhance the performance of rivets, making them less susceptible to snapping under pressure. As technology continues to evolve, the engineering community must stay informed about the latest advancements to mitigate the risks associated with rivet snap failures.In conclusion, the term rivet snap encapsulates a critical aspect of engineering that requires attention to detail and a thorough understanding of material properties. By recognizing the potential for rivet failure and implementing preventive measures, engineers can ensure the safety and longevity of structures that rely on riveted connections. This awareness not only protects investments in infrastructure but also safeguards lives, underscoring the vital role that precise engineering plays in our daily lives.

在工程和建筑的世界中，有许多术语对于普通公众来说可能显得陌生。其中一个术语是铆钉断裂，它指的是铆接连接中的一种特定失效模式。铆钉是一种机械紧固件，用于将两种或多种材料连接在一起，通常是金属。它们广泛应用于航空航天、汽车和建筑等多个行业。铆钉断裂发生在铆钉因过大负荷或应力而失效时，导致其从接头处断裂或“断裂”。这种失效可能会导致灾难性的后果，特别是在依赖这些连接完整性的结构中。理解铆钉断裂背后的机制对工程师和设计师至关重要。当铆钉被安装时，它会变形以在材料之间形成紧密的接头。然而，如果负荷超过铆钉的承载能力，材料将无法再将部件连接在一起，导致突然的失效。这种现象可能由于疲劳、腐蚀或不当安装技术等因素而加剧。为了防止铆钉断裂，工程师必须仔细计算施加在结构上的负荷，并选择适合这些负荷的铆钉。此外，定期检查和维护对于识别任何磨损或损坏的迹象至关重要，以防止它们导致失效。在某些情况下，可能需要更换显示疲劳或退化迹象的铆钉。铆钉断裂的影响不仅仅局限于接头的机械失效。例如，在航空工业中，失效的铆钉可能会危及飞机的安全，潜在地导致事故。这突显了在铆接组件制造中严格测试和质量保证流程的重要性。工程师通常会进行模拟和压力测试，以确保铆钉能够承受它们在实际应用中所面临的条件。此外，先进材料和技术的使用为提高铆接接头可靠性开辟了新的途径。例如，高强度合金和创新的紧固技术的发展可以增强铆钉的性能，使其在压力下更不易断裂。随着技术的不断发展，工程界必须及时了解最新进展，以减少与铆钉断裂失效相关的风险。总之，术语铆钉断裂概括了工程学中的一个关键方面，需要关注细节和对材料特性的透彻理解。通过认识到铆钉失效的潜在性并实施预防措施，工程师可以确保依赖铆接连接的结构的安全性和耐久性。这种意识不仅保护了基础设施的投资，也保障了生命安全，凸显了精确工程在我们日常生活中的重要作用。