ultrasonic cleaning

简明释义

超声波清洗

英英释义

例句

1.Restorers often rely on ultrasonic cleaning to preserve antique items.

修复师通常依赖于超声波清洗来保护古董物品。

2.The automotive industry uses ultrasonic cleaning to clean engine parts effectively.

汽车行业使用超声波清洗来有效清洁发动机零件。

3.Many dental offices employ ultrasonic cleaning for their instruments.

许多牙科诊所使用超声波清洗来清洁他们的器械。

4.You can find ultrasonic cleaning machines for eyeglasses at most optical stores.

在大多数眼镜店，你可以找到用于眼镜的超声波清洗机。

5.The jeweler used ultrasonic cleaning to remove dirt from the rings.

珠宝商使用超声波清洗来去除戒指上的污垢。

作文

Ultrasonic cleaning is a process that utilizes high-frequency sound waves to agitate a fluid, which in turn produces millions of tiny bubbles. These bubbles implode with great force, creating a scrubbing action that effectively removes dirt, grime, and contaminants from various surfaces. This method has gained immense popularity across various industries, including automotive, jewelry, electronics, and medical fields, due to its efficiency and thoroughness.The mechanism behind ultrasonic cleaning (超声波清洗) involves the use of a specialized cleaning solution, usually a water-based detergent, that enhances the cleaning process. When the ultrasonic waves are introduced into the solution, they create high and low-pressure cycles. During the low-pressure phase, small bubbles form, while in the high-pressure phase, these bubbles collapse violently. This phenomenon is known as cavitation, and it is the key to the effectiveness of ultrasonic cleaning (超声波清洗).One of the significant advantages of ultrasonic cleaning (超声波清洗) is its ability to clean intricate parts and complex geometries that are otherwise difficult to reach using traditional cleaning methods. For instance, in the medical industry, surgical instruments with fine details can be thoroughly cleaned without risking damage to their delicate structures. Similarly, in the jewelry sector, pieces with intricate designs can be restored to their original shine without the need for harsh chemicals or abrasive materials.Moreover, ultrasonic cleaning (超声波清洗) is not only effective but also environmentally friendly. It reduces the need for toxic solvents and minimizes waste, making it a sustainable option for cleaning. Many businesses are now adopting this technology as part of their commitment to sustainability and responsible manufacturing practices.In addition to its cleaning capabilities, ultrasonic cleaning (超声波清洗) can also be used for various applications such as degassing liquids, enhancing chemical reactions, and even in the field of nanotechnology for dispersing nanoparticles. This versatility makes it an invaluable tool in research and development, as well as in industrial applications.However, while ultrasonic cleaning (超声波清洗) offers numerous benefits, it is essential to use the right frequency and power settings depending on the material being cleaned. Different materials react differently to ultrasonic waves; thus, improper settings can lead to damage. For example, softer metals may become pitted if subjected to excessive ultrasonic energy, while more robust materials like stainless steel can withstand higher frequencies without issue.In conclusion, ultrasonic cleaning (超声波清洗) represents a significant advancement in cleaning technology, offering a safe, efficient, and environmentally friendly alternative to traditional methods. Its ability to reach into crevices and clean delicate items without causing harm makes it a preferred choice in various industries. As technology continues to evolve, we can expect to see even more innovative applications of ultrasonic cleaning (超声波清洗) in the future, further solidifying its place as a crucial tool in modern cleaning processes.

超声波清洗是一种利用高频声波激发液体的过程，从而产生数百万个微小气泡。这些气泡以巨大的力量爆裂，形成一种擦洗动作，有效去除各种表面的污垢、污垢和污染物。这种方法在汽车、珠宝、电子和医疗等多个行业中因其高效和彻底而获得了巨大的人气。超声波清洗的机制涉及使用专门的清洁溶液，通常是水基洗涤剂，以增强清洁过程。当超声波被引入溶液中时，它们会产生高压和低压循环。在低压阶段，小气泡形成，而在高压阶段，这些气泡猛烈地崩溃。这种现象称为空化，是超声波清洗有效性的关键。超声波清洗的一个显著优势是它能够清洁复杂部件和复杂几何形状，这些形状使用传统清洁方法通常难以到达。例如，在医疗行业，具有细节的外科仪器可以在不损坏其精细结构的情况下彻底清洁。同样，在珠宝行业，具有复杂设计的作品可以在不需要强力化学品或磨料材料的情况下恢复到原来的光泽。此外，超声波清洗不仅有效，而且环保。它减少了对有毒溶剂的需求，最小化了废物，使其成为可持续的清洁选择。许多企业现在正在采用这项技术，作为其对可持续性和负责任制造实践承诺的一部分。除了清洁能力，超声波清洗还可以用于各种应用，如脱气液体、增强化学反应，甚至在纳米技术领域中分散纳米颗粒。这种多功能性使其在研究开发以及工业应用中成为无价之宝。然而，尽管超声波清洗提供了众多好处，但根据所清洁材料的不同，使用正确的频率和功率设置至关重要。不同材料对超声波的反应不同，因此不当设置可能导致损坏。例如，较软的金属如果施加过多的超声波能量可能会出现凹坑，而不锈钢等更坚固的材料则可以承受更高的频率而不会出现问题。总之，超声波清洗代表了清洁技术的重要进步，提供了一种安全、高效和环保的替代传统方法。它能够深入缝隙并在不造成伤害的情况下清洁精致物品，使其成为各个行业的首选。随着技术的不断发展，我们可以期待看到超声波清洗在未来的更多创新应用，进一步巩固其作为现代清洁过程中的重要工具的地位。