soldered

简明释义

英[ˈsɒldəd]美[ˈsɑːldərd]

锡焊的

焊接的

英英释义

单词用法

同义词

反义词

例句

1.I then stuck one of my NiCu rods into the hole and soldered it into place.

当时我坚持我的一个新生儿加护中心棒到孔和焊接成的地方。

2.The international standard specifies a soldered pin connector for circuit boards.

国际标准为电路板选定了焊接针连接器。

3.A broken friendship may be soldered but will never be sound.

破裂的友谊可以重归于好，但绝不会亲密无间。

4.The capacitors shall not be effected by any radiated heat from the soldered PC board or other components after soldering.

焊接后的电容器不应受到任何已焊接p C板或其他元器件热辐射的影响。

5.In this photo, a worker heats a computer board on a steel surface to remove the computer chips soldered into it.

图中的这位工人在一块钢板表面加热一块电脑电路板以取下焊接在上面的芯片原件。

6.Careful inspection showed that the statue's head had been cast separately and soldered in place.

仔细检查发现雕像的头部是铸好后再焊接上去的。

7.Soldered or tinned annealed wire.

焊锡或镀锡的导线。

8.He soldered the metal pieces together for the sculpture.

他将金属片焊接在一起，制作雕塑。

9.The wires were soldered to ensure a strong connection.

这些电线被焊接以确保连接牢固。

10.To repair the broken pipe, they soldered it at the joint.

为了修理破损的管道，他们在接头处焊接了它。

11.After the circuit board was soldered, it was ready for testing.

电路板完成焊接后，准备进行测试。

12.The technician soldered the components onto the motherboard.

技术员将组件焊接到主板上。

作文

In the world of electronics and metalwork, the term soldered (焊接) plays a crucial role in creating reliable connections between components. Soldering is a process that involves melting a filler metal, known as solder, to join two or more electronic parts together. This technique is widely used in various applications, from assembling circuit boards to repairing delicate jewelry. Understanding how to properly use soldering techniques can significantly impact the quality and durability of the final product.One of the main advantages of soldered (焊接) joints is their ability to create strong electrical connections. When components are soldered (焊接), the melted solder flows into the spaces between the parts, forming a solid bond as it cools and solidifies. This bond not only ensures good electrical conductivity but also provides mechanical stability, which is essential for the longevity of electronic devices. For instance, if a component on a circuit board is poorly soldered (焊接), it may lead to intermittent connections, causing the device to malfunction.Moreover, the process of soldering (焊接) requires precision and skill. A well-executed soldered (焊接) joint should have a shiny appearance, indicating that the solder has flowed properly and formed a good connection. On the other hand, a dull or grainy surface may suggest that the solder did not adhere well to the surfaces being joined, which could compromise the integrity of the connection. Therefore, mastering the art of soldering (焊接) is essential for anyone working in fields that involve electronics or metal fabrication.In addition to its electrical benefits, soldered (焊接) joints can also be advantageous in terms of repairability. Unlike permanent connections, such as those made with adhesives, soldered (焊接) joints can be easily reworked. If a component fails or needs to be replaced, a technician can simply heat the soldered (焊接) joint to melt the solder, allowing for the removal of the faulty part. This flexibility is particularly important in industries where technology evolves rapidly, and components may need to be upgraded or swapped out frequently.However, it is essential to note that soldering (焊接) also comes with its challenges. For example, different types of solder are available, including lead-based and lead-free options. While lead-free solder is often preferred for environmental reasons, it typically requires higher temperatures to melt, which can pose risks to sensitive electronic components. Additionally, achieving the right temperature and timing during the soldering (焊接) process is critical, as overheating can damage components, while underheating may result in weak joints.In conclusion, the term soldered (焊接) encompasses a fundamental process in electronics and metalworking that ensures strong, reliable connections between components. The ability to create effective soldered (焊接) joints is crucial for the performance and durability of electronic devices. As technology continues to advance, the importance of mastering soldering (焊接) techniques will remain vital for professionals in these fields. By understanding the principles of soldering (焊接) and practicing the necessary skills, individuals can contribute to the creation of high-quality products that meet the demands of modern technology.

在电子和金属加工的世界中，术语soldered（焊接）在创建可靠的组件连接中发挥着至关重要的作用。焊接是一种将填充金属（称为焊料）熔化以将两个或多个电子部件连接在一起的过程。这种技术广泛应用于各种应用，从组装电路板到修理精密珠宝。理解如何正确使用焊接技术可以显著影响最终产品的质量和耐用性。soldered（焊接）接头的主要优点之一是它们能够创建强大的电气连接。当组件被soldered（焊接）时，熔化的焊料流入部件之间的空隙，随着冷却和固化形成坚固的结合。这种结合不仅确保良好的电导性，还提供机械稳定性，这对于电子设备的长久性至关重要。例如，如果电路板上的某个组件焊接不良，可能导致间歇性连接，从而导致设备故障。此外，soldering（焊接）过程需要精确和技巧。一个执行良好的soldered（焊接）接头应该具有光亮的外观，表明焊料已正确流动并形成良好的连接。另一方面，暗淡或颗粒状的表面可能表明焊料未能良好地附着于被连接的表面，这可能会影响连接的完整性。因此，掌握soldering（焊接）的艺术对任何从事电子或金属制造领域的人来说都是至关重要的。除了电气优势之外，soldered（焊接）接头在可修复性方面也具有优势。与使用粘合剂制作的永久连接不同，soldered（焊接）接头可以很容易地重新处理。如果某个组件故障或需要更换，技术人员可以简单地加热soldered（焊接）接头以熔化焊料，从而允许拆除故障部件。这种灵活性在技术快速发展的行业中尤为重要，因为组件可能需要频繁升级或更换。然而，值得注意的是，soldering（焊接）也带来了挑战。例如，有多种类型的焊料可供选择，包括基于铅和无铅选项。虽然出于环保原因通常偏爱无铅焊料，但它通常需要更高的温度才能熔化，这可能对敏感的电子组件构成风险。此外，在soldering（焊接）过程中达到正确的温度和时间至关重要，因为过热可能损坏组件，而加热不足可能导致接头脆弱。总之，术语soldered（焊接）涵盖了电子和金属加工中的一项基本过程，确保组件之间的强大可靠连接。创建有效的soldered（焊接）接头的能力对于电子设备的性能和耐用性至关重要。随着技术的不断进步，掌握soldering（焊接）技术的重要性将继续对这些领域的专业人士保持关键。通过理解soldering（焊接）的原理并练习必要的技能，个人可以为创造满足现代技术需求的高质量产品做出贡献。