busbar mosaic cracking

简明释义

轴瓦龟裂

英英释义

例句

1.Experts recommend regular monitoring for signs of busbar mosaic cracking 母线马赛克开裂 in high-voltage installations.

专家建议在高压设备中定期监测 busbar mosaic cracking 母线马赛克开裂 的迹象。

2.The maintenance team implemented a solution to repair the busbar mosaic cracking 母线马赛克开裂 in order to prevent further damage.

维护团队实施了解决方案以修复 busbar mosaic cracking 母线马赛克开裂，以防止进一步损坏。

3.During the inspection, we discovered several instances of busbar mosaic cracking 母线马赛克开裂 that needed immediate attention.

在检查过程中，我们发现了几处需要立即处理的 busbar mosaic cracking 母线马赛克开裂。

4.The report highlighted the risks associated with busbar mosaic cracking 母线马赛克开裂 in aging infrastructure.

报告强调了老化基础设施中与 busbar mosaic cracking 母线马赛克开裂 相关的风险。

5.The engineer noted that the busbar mosaic cracking 母线马赛克开裂 was affecting the overall performance of the electrical system.

工程师注意到，busbar mosaic cracking 母线马赛克开裂 正在影响电气系统的整体性能。

作文

In the realm of electrical engineering, the term busbar mosaic cracking refers to a specific type of failure that can occur in busbars, which are conductive materials used to distribute electricity within power systems. Busbars are typically made from metals like copper or aluminum and are crucial components in substations, switchgear, and distribution boards. Understanding busbar mosaic cracking is essential for engineers and technicians who work with these systems, as it can lead to significant operational issues and safety hazards.The phenomenon of busbar mosaic cracking usually occurs due to thermal cycling and mechanical stress over time. When electrical currents pass through a busbar, they generate heat, causing the material to expand. As the current fluctuates, the busbar cools and contracts, leading to repeated cycles of expansion and contraction. This thermal cycling can create micro-cracks within the material, which may evolve into larger cracks if not addressed promptly.Moreover, external factors such as environmental conditions, humidity, and mechanical vibrations can exacerbate the problem. In humid environments, moisture can penetrate these micro-cracks, leading to corrosion, which further compromises the structural integrity of the busbar. Thus, understanding the causes and implications of busbar mosaic cracking is vital for maintaining the reliability of electrical systems.Preventive measures can be implemented to mitigate the risk of busbar mosaic cracking. Regular inspections and maintenance can help identify early signs of wear and tear. Engineers can utilize non-destructive testing methods, such as ultrasonic testing or infrared thermography, to detect cracks before they become critical. Additionally, using advanced materials or coatings that can withstand thermal and mechanical stresses may also reduce the likelihood of this type of failure.When busbar mosaic cracking occurs, it can lead to severe consequences, including power outages, equipment damage, and safety hazards for personnel working in the vicinity. Therefore, it is crucial for power companies and facility managers to prioritize the monitoring and maintenance of busbars to ensure their longevity and reliability.In conclusion, busbar mosaic cracking is a significant concern in the field of electrical engineering, highlighting the need for diligent maintenance and innovative solutions. By understanding the mechanisms behind this failure and implementing preventive strategies, we can enhance the safety and efficiency of our electrical systems. As technology advances, ongoing research will likely yield new insights into materials and designs that can better withstand the challenges posed by thermal cycling and mechanical stress, ultimately reducing the incidence of busbar mosaic cracking and improving the overall resilience of electrical infrastructure.

在电气工程领域，短语busbar mosaic cracking指的是在母线中可能发生的一种特定类型的故障。母线是用于在电力系统中分配电力的导电材料，通常由铜或铝等金属制成，是变电站、开关设备和配电板中的关键组件。理解busbar mosaic cracking对于从事这些系统工作的工程师和技术人员至关重要，因为它可能导致重大操作问题和安全隐患。busbar mosaic cracking现象通常由于热循环和机械应力随时间的推移而发生。当电流通过母线时，会产生热量，导致材料膨胀。随着电流波动，母线冷却并收缩，导致反复的膨胀和收缩循环。这种热循环会在材料内产生微裂纹，如果不及时处理，可能演变为更大的裂纹。此外，环境条件、湿度和机械振动等外部因素也可能加剧这一问题。在潮湿环境中，水分可以渗透这些微裂纹，导致腐蚀，进一步损害母线的结构完整性。因此，理解busbar mosaic cracking的原因和影响对于维护电气系统的可靠性至关重要。可以实施预防措施来降低busbar mosaic cracking的风险。定期检查和维护可以帮助发现早期的磨损迹象。工程师可以利用无损检测方法，例如超声波检测或红外热成像，来检测裂纹，以便在其变得严重之前采取措施。此外，使用能够承受热应力和机械应力的先进材料或涂层也可能减少这种故障的可能性。当发生busbar mosaic cracking时，可能导致严重后果，包括停电、设备损坏以及对在附近工作的人员的安全隐患。因此，电力公司和设施管理者必须优先考虑母线的监测和维护，以确保其耐用性和可靠性。总之，busbar mosaic cracking是电气工程领域的重要关注点，突显了勤勉维护和创新解决方案的必要性。通过理解这种故障背后的机制并实施预防策略，我们可以增强电气系统的安全性和效率。随着技术的进步，持续的研究可能会带来新的见解，帮助我们开发出能更好地抵御热循环和机械应力挑战的材料和设计，从而最终减少busbar mosaic cracking的发生，提高电气基础设施的整体韧性。