arcing distance
简明释义
1. 火花间隙; 2. 放电距离; 3. 发弧距;
英英释义
Arcing distance refers to the length of the path that an object travels in a curved trajectory, typically under the influence of gravity or other forces. | 弧形距离是指物体在曲线轨迹上移动的路径长度,通常受到重力或其他力的影响。 |
例句
1.The arcing distance is crucial for the design of high-voltage equipment.
对于高压设备的设计,弧距至关重要。
2.To avoid short circuits, the arcing distance between components must be carefully maintained.
为了避免短路,组件之间的弧距必须仔细保持。
3.The technician adjusted the spacing to increase the arcing distance in the circuit.
技术员调整了间距以增加电路中的弧距。
4.During the test, we measured the arcing distance of the electrical discharge to prevent any hazards.
在测试中,我们测量了电气放电的弧距以防止任何危险。
5.The engineer calculated the arcing distance to ensure the power lines were safe from tree branches.
工程师计算了弧距以确保电力线远离树枝安全。
作文
In the world of physics and engineering, understanding the concept of arcing distance is crucial for designing effective electrical systems. The term arcing distance refers to the minimum distance over which an electrical arc can occur between two conductive materials. This phenomenon is particularly important in high-voltage applications, where the risk of arcing can lead to equipment failure or even catastrophic accidents. To illustrate the significance of arcing distance, consider a power transmission line. These lines carry electricity over long distances, and they must be designed to ensure that the electrical current does not jump from the line to nearby structures or the ground. If the arcing distance is not sufficient, it can result in unwanted energy loss and pose serious safety hazards. Engineers must calculate the appropriate arcing distance based on factors such as voltage levels, environmental conditions, and the materials used in the construction of the line.Moreover, the arcing distance is influenced by various environmental factors, including humidity, temperature, and air pressure. For instance, in humid conditions, the presence of moisture in the air can decrease the arcing distance, making it easier for an arc to form. This is why engineers often conduct tests under different environmental conditions to determine the safest and most efficient arcing distance for their designs.In addition to electrical systems, the concept of arcing distance can also be applied in other fields, such as welding and plasma physics. In welding, for example, the arcing distance between the electrode and the workpiece affects the quality of the weld. A shorter arcing distance may lead to a more concentrated heat source, resulting in a stronger weld. However, if the distance is too short, it can cause damage to the workpiece or create an unstable arc.Understanding arcing distance is not just limited to engineers and scientists; it is also essential for safety personnel who work in environments where electrical equipment is used. They must be aware of the potential dangers associated with insufficient arcing distance and take necessary precautions to mitigate risks. This includes ensuring that equipment is properly maintained and that safety protocols are followed.In conclusion, the concept of arcing distance is vital across various domains, especially in electrical engineering. It encompasses the minimum distance required to prevent electrical arcs from forming, thereby ensuring the safety and efficiency of electrical systems. As technology continues to advance, a deeper understanding of arcing distance will be essential for developing innovative solutions that minimize risks and improve performance. Whether in power transmission, welding, or safety management, the principles surrounding arcing distance play a pivotal role in our everyday lives.
在物理学和工程学的世界中,理解弧距的概念对于设计有效的电气系统至关重要。术语弧距指的是两个导电材料之间发生电弧所需的最小距离。这一现象在高压应用中尤为重要,因为电弧的风险可能导致设备故障甚至灾难性事故。为了说明弧距的重要性,考虑一下输电线。这些线路在长距离内传输电力,必须设计以确保电流不会从线路跳到附近的结构或地面。如果弧距不够,就可能导致不必要的能量损失,并带来严重的安全隐患。工程师必须根据电压水平、环境条件和线路建设所用材料等因素计算适当的弧距。此外,弧距还受到多种环境因素的影响,包括湿度、温度和气压。例如,在潮湿条件下,空气中的水分会降低弧距,使电弧更容易形成。这就是为什么工程师通常在不同的环境条件下进行测试,以确定其设计的最安全和最高效的弧距。除了电气系统,弧距的概念还可以应用于其他领域,如焊接和等离子体物理学。在焊接中,例如,电极与工件之间的弧距会影响焊接的质量。较短的弧距可能导致更集中的热源,从而产生更强的焊接。然而,如果距离过短,可能会对工件造成损害或产生不稳定的电弧。理解弧距不仅限于工程师和科学家;它对于在使用电气设备的环境中工作的安全人员也至关重要。他们必须意识到不足的弧距可能带来的潜在危险,并采取必要的预防措施来减轻风险。这包括确保设备得到妥善维护,并遵循安全协议。总之,弧距的概念在各个领域都至关重要,尤其是在电气工程中。它涵盖了防止电弧形成所需的最小距离,从而确保电气系统的安全性和效率。随着技术的不断进步,对弧距的深入理解将对开发创新解决方案以最小化风险和提高性能至关重要。无论是在电力传输、焊接还是安全管理中,围绕弧距的原则在我们日常生活中发挥着关键作用。
相关单词
