manual electrode

简明释义

手工焊条

英英释义

例句

1.The technician used a manual electrode 手动电极 to perform the welding on the metal frame.

技术员使用了一个手动电极来对金属框架进行焊接。

2.The manual electrode 手动电极 was essential for the artist who wanted to create detailed metal sculptures.

对于想要创作精细金属雕塑的艺术家来说，手动电极是必不可少的。

3.When repairing old machinery, a manual electrode 手动电极 is often preferred for its versatility.

在修理旧机器时，通常更喜欢使用手动电极，因为它具有多功能性。

4.For this project, we will rely on a manual electrode 手动电极 instead of an automatic one for more control.

在这个项目中，我们将依赖于一个手动电极而不是自动电极，以获得更多的控制。

5.Using a manual electrode 手动电极 allows for better precision in delicate tasks.

使用手动电极可以在精细任务中获得更好的精确度。

作文

In the field of electrical engineering and medical applications, the term manual electrode refers to a type of electrode that is operated by hand rather than automatically. This can be particularly important in various settings, such as during surgeries or in laboratories where precision and control are paramount. The manual electrode allows for a more hands-on approach, giving the operator the ability to adjust the positioning and pressure applied during the procedure. For instance, in neurosurgery, a manual electrode may be used to stimulate specific areas of the brain. Surgeons must have precise control over the electrode's placement to ensure that they are targeting the correct region without affecting surrounding tissues. This requires a steady hand and a deep understanding of the anatomy involved. Moreover, in the context of electrotherapy, manual electrodes are often utilized to deliver therapeutic electrical currents to specific areas of the body. Physical therapists might use these electrodes to relieve pain or promote healing in patients. The therapist can manually manipulate the electrode to find the most effective position for treatment, allowing for a tailored approach to each individual's needs. The versatility of manual electrodes extends beyond medical applications; they are also essential in research settings. Scientists often use them for experiments involving electrical stimulation of tissues or cells. The ability to control the electrode manually means that researchers can fine-tune their experiments, adjusting variables as needed to gather accurate data. Additionally, the design of manual electrodes can vary significantly depending on their intended use. Some may be simple metal probes, while others could be more complex devices with sensors and feedback mechanisms. Regardless of their design, the underlying principle remains the same: the operator has direct control over the electrode's function. In conclusion, the manual electrode plays a crucial role in both medical and scientific fields, providing a level of control and precision that automated systems cannot always achieve. Its applications range from surgical procedures to therapeutic treatments and experimental research. Understanding how to effectively utilize a manual electrode is essential for professionals in these areas, as it can greatly influence the outcomes of their work. As technology continues to advance, the importance of mastering the use of manual electrodes will likely remain significant, ensuring that practitioners can provide the best possible care and conduct meaningful research. In summary, the manual electrode (手动电极) is an indispensable tool in various fields, allowing for direct human interaction and control in processes that require precision and adaptability. Whether in the operating room, therapy sessions, or research laboratories, the effectiveness of a manual electrode hinges on the skill and knowledge of the operator, making it a vital component of many technical and medical practices.

在电气工程和医学应用领域，术语手动电极指的是一种由手操作而非自动操作的电极。这在各种场合中尤其重要，例如在手术或实验室中，精确性和控制力至关重要。手动电极允许更直接的操作，使操作者能够在程序中调整电极的位置和施加的压力。例如，在神经外科中，可能使用手动电极来刺激大脑的特定区域。外科医生必须对电极的放置进行精确控制，以确保他们针对正确的区域，而不影响周围的组织。这需要稳定的手和对相关解剖结构的深刻理解。此外，在电疗的背景下，手动电极通常用于向身体特定区域传递治疗电流。物理治疗师可能会使用这些电极来缓解疼痛或促进患者的愈合。治疗师可以手动操纵电极以找到最有效的治疗位置，从而为每个个体的需求提供量身定制的方法。手动电极的多功能性不仅限于医疗应用，它们在研究环境中也至关重要。科学家们通常使用它们进行涉及组织或细胞电刺激的实验。手动控制电极的能力意味着研究人员可以微调实验，根据需要调整变量，以收集准确的数据。此外，手动电极的设计可能会根据其预期用途而有所不同。有些可能是简单的金属探针，而其他则可能是更复杂的设备，配备传感器和反馈机制。无论其设计如何，基本原理始终相同：操作者对电极的功能拥有直接控制权。总之，手动电极在医疗和科学领域中发挥着至关重要的作用，提供了自动化系统无法始终实现的控制和精确度。它的应用范围从外科手术到治疗以及实验研究。有效利用手动电极的能力对于这些领域的专业人士至关重要，因为这可能极大影响他们工作的结果。随着技术的不断进步，掌握手动电极的使用的重要性可能仍将显著，确保从业人员能够提供最佳护理并进行有意义的研究。总之，手动电极(手动电极)是各种领域中不可或缺的工具，允许在需要精确度和适应性的过程中进行直接的人机交互和控制。无论是在手术室、治疗会话还是研究实验室，手动电极的有效性都依赖于操作者的技能和知识，使其成为许多技术和医疗实践中的重要组成部分。