electric resistance brazing

简明释义

电阻钎焊

英英释义

例句

1.The aerospace sector benefits from electric resistance brazing (电阻焊接) due to its ability to withstand high temperatures.

航空航天行业受益于电阻焊接，因为它能够承受高温。

2.Using electric resistance brazing (电阻焊接) can reduce the risk of thermal distortion in delicate parts.

使用电阻焊接可以减少精密部件的热变形风险。

3.Manufacturers prefer electric resistance brazing (电阻焊接) for its speed and efficiency in production lines.

制造商更喜欢电阻焊接，因为它在生产线上的速度和效率。

4.The automotive industry uses electric resistance brazing (电阻焊接) to join metal components for better durability.

汽车工业使用电阻焊接来连接金属部件，以提高耐用性。

5.In electronics manufacturing, electric resistance brazing (电阻焊接) is applied to create reliable connections between circuit boards.

在电子制造中，电阻焊接用于在电路板之间创建可靠的连接。

作文

Electric resistance brazing is a highly efficient and effective method of joining metals. This process utilizes the principle of electric resistance to generate heat at the joint interface, allowing for the melting of a filler metal that bonds the base materials together. One of the main advantages of electric resistance brazing (电阻钎焊) is its ability to produce strong joints with minimal thermal distortion, making it particularly useful in industries where precision is paramount.The technique involves passing an electric current through the materials being joined. As the current flows, the resistance at the joint interface generates heat, which raises the temperature of the filler metal to its melting point. Once the filler metal melts, it flows into the joint, creating a strong bond as it solidifies upon cooling. This method is widely used in various applications, including automotive, aerospace, and electronics manufacturing.One of the key benefits of electric resistance brazing (电阻钎焊) is its speed. The process can be completed in a matter of seconds, which significantly increases production efficiency. Additionally, because the heating is localized to the joint area, there is less risk of damaging surrounding materials. This aspect is particularly important in applications involving sensitive components or materials that cannot withstand high temperatures.Moreover, electric resistance brazing (电阻钎焊) can be easily automated, which further enhances its appeal in modern manufacturing environments. Automation allows for consistent quality and repeatability, reducing the likelihood of human error. Many industries have adopted this technique due to its reliability and the high-quality joints it produces.However, like any manufacturing process, electric resistance brazing (电阻钎焊) does have its limitations. For instance, it is most effective for joining similar materials, and may not be suitable for dissimilar metals without proper preparation. Additionally, the equipment required for this process can be expensive, which may deter smaller manufacturers from adopting it.In conclusion, electric resistance brazing (电阻钎焊) stands out as a valuable joining technique in the manufacturing industry. Its ability to create strong, precise joints quickly and efficiently makes it an attractive option for many applications. As technology continues to advance, we can expect to see further improvements in this method, potentially expanding its use across even more industries. Understanding and mastering electric resistance brazing (电阻钎焊) is essential for engineers and manufacturers who aim to stay competitive in a rapidly evolving market.