interelectrode

简明释义

英[ˌɪntərɪˈlektrəʊd]美[ˌɪntərɪˈlektroʊd]

adj. 电极间的

英英释义

单词用法

同义词

反义词

例句

1.The analysis of this model shows that if the interelectrode gap length in the CCM elements decreases, the rate of the charge multiplication increases.

通过对该模型的分析表明：ccm单元内电极间的间隙越小，电荷倍增率越大。

2.Interelectrode clearance is one of the most important parameter of it, keeping minimal clearance while machining will improve the part's surface gloss and size accuracy.

极间间隙是对脉冲电化学光整加工具有重要影响的工艺参数，保持极小的极间间隙加工，可以提高工件的表面光泽度以及加工的尺寸精度。

3.Semiconductor arrester is a new type of surge protection device, which, however, has a large interelectrode capacitance, thus limiting its application in high frequency systems.

半导体放电管是新一代抗浪涌保护器件，极间电容是其应用到高频环境下的一个限制因素。

4.The ignition characteristics in terms of spatial-temporal evolution of discharge interelectrode structure and optical emission intensity are investigated by time resolved imaging.

通过时间分辨成像研究起辉阶段在放电电极极间间隙的时空演变和发射谱线强度的特征。

5.The interelectrode dielectric adopts the polypropylene film with surface coarsening which is easy to impregnate so as to enhance the reliability of high-capacity capacitor.

极间介质为易于浸渍的表面粗化聚丙薄膜，特别提高了大容量电容器的可靠性。

6.The ignition characteristics in terms of spatial-temporal evolution of discharge interelectrode structure and optical emission intensity are investigated by time resolved imaging.

通过时间分辨成像研究起辉阶段在放电电极极间间隙的时空演变和发射谱线强度的特征。

7.We observed a significant increase in current due to the reduced interelectrode 电极间的 spacing.

由于减少了interelectrode 电极间的 间距，我们观察到电流显著增加。

8.The design of the interelectrode 电极间的 configuration is crucial for optimal performance.

设计interelectrode 电极间的 配置对于最佳性能至关重要。

9.In our experiment, we measured the voltage across the interelectrode 电极间的 gap to determine the discharge characteristics.

在我们的实验中，我们测量了interelectrode 电极间的 间隙的电压以确定放电特性。

10.The interelectrode 电极间的 resistance can influence the efficiency of the device.

设备的效率可能受到interelectrode 电极间的 电阻的影响。

11.The interelectrode 电极间的 distance in the capacitor affects its capacitance.

电容器中interelectrode 电极间的 距离影响其电容。

作文

In the field of electrical engineering, the term interelectrode refers to the space or distance between two electrodes. This concept is crucial in various applications, including capacitors, batteries, and electrochemical cells. Understanding the interelectrode distance can significantly impact the performance and efficiency of these devices. For instance, in a capacitor, the interelectrode gap determines the capacitance value, which is essential for energy storage. A smaller interelectrode distance typically results in higher capacitance, allowing the capacitor to store more charge. However, this also raises concerns regarding dielectric breakdown, where the insulating material between the electrodes fails and leads to short-circuiting. Therefore, engineers must carefully balance the interelectrode distance and the materials used to ensure optimal performance while avoiding potential failures.Moreover, in electrochemical cells, the interelectrode distance plays a vital role in determining the cell's overall efficiency and reaction kinetics. The distance influences the rate at which ions can travel between the electrodes during discharge and charge cycles. A shorter interelectrode distance can enhance ion transport, leading to faster reactions and improved performance. However, too small a distance may lead to increased resistance and heat generation, which could adversely affect the cell's lifespan and safety. Thus, optimizing the interelectrode distance is essential for developing high-performance batteries that meet the growing demands for energy storage in electric vehicles and renewable energy systems.In addition to capacitors and batteries, the concept of interelectrode spacing is also relevant in fields like welding and electrolysis. In welding processes, the interelectrode distance can influence the quality of the weld joint, as it affects the heat distribution and penetration depth. Similarly, in electrolysis, the interelectrode gap impacts the efficiency of gas production, such as hydrogen and oxygen, from water splitting. Engineers and scientists must consider the interelectrode distance when designing systems for these applications to ensure optimal performance and safety.In conclusion, the term interelectrode is an essential concept in various fields of electrical engineering and technology. Its implications on device performance, efficiency, and safety cannot be overstated. As technology continues to advance, understanding and optimizing the interelectrode distance will remain a critical area of research and development. By doing so, we can develop more efficient energy storage systems, improve manufacturing processes, and enhance the overall performance of electrical devices. The study of interelectrode spacing will undoubtedly play a pivotal role in shaping the future of electrical engineering and technology, paving the way for innovations that can meet the challenges of tomorrow.

在电气工程领域，术语interelectrode指的是两个电极之间的空间或距离。这个概念在各种应用中至关重要，包括电容器、电池和电化学电池。理解interelectrode距离可以显著影响这些设备的性能和效率。例如，在电容器中，interelectrode间隙决定了电容值，这对能量存储至关重要。较小的interelectrode距离通常会导致更高的电容，使电容器能够存储更多的电荷。然而，这也引发了关于介电击穿的担忧，即电极之间的绝缘材料失效并导致短路。因此，工程师必须仔细平衡interelectrode距离和所使用的材料，以确保最佳性能，同时避免潜在的故障。此外，在电化学电池中，interelectrode距离在确定电池的整体效率和反应动力学方面发挥着至关重要的作用。该距离影响离子在放电和充电周期中在电极之间移动的速率。较短的interelectrode距离可以增强离子传输，从而加快反应速度，提高性能。然而，距离过小可能导致电阻增加和热量产生，这可能对电池的使用寿命和安全性产生不利影响。因此，优化interelectrode距离对于开发满足电动汽车和可再生能源系统日益增长的能源存储需求的高性能电池至关重要。除了电容器和电池之外，interelectrode间距的概念在焊接和电解等领域也相关。在焊接过程中，interelectrode距离可以影响焊接接头的质量，因为它影响热量分布和渗透深度。同样，在电解中，interelectrode间隙会影响从水分解中产生气体（如氢气和氧气）的效率。工程师和科学家在设计这些应用的系统时必须考虑interelectrode距离，以确保最佳性能和安全性。总之，术语interelectrode是电气工程和技术各个领域的重要概念。它对设备性能、效率和安全性的影响不容小觑。随着技术的不断进步，理解和优化interelectrode距离将仍然是一个关键的研究和开发领域。通过这样做，我们可以开发出更高效的能源存储系统，改善制造过程，并增强电气设备的整体性能。对interelectrode间距的研究无疑将在塑造电气工程和技术的未来中发挥关键作用，为应对明天的挑战铺平道路。