ultrasonic processing

简明释义

超声处理

英英释义

例句

1.Researchers are exploring ultrasonic processing to improve the efficiency of wastewater treatment.

研究人员正在探索超声波处理以提高废水处理的效率。

2.Using ultrasonic processing can significantly reduce the time needed for cleaning delicate electronic components.

使用超声波处理可以显著减少清洁精密电子元件所需的时间。

3.The use of ultrasonic processing in the food industry can enhance the extraction of flavors and nutrients from ingredients.

在食品行业中使用超声波处理可以增强成分中风味和营养物质的提取。

4.The textile industry employs ultrasonic processing for better dye penetration and fabric finishing.

纺织行业采用超声波处理以改善染料渗透和面料整理。

5.In pharmaceuticals, ultrasonic processing is utilized to create finer drug formulations.

在制药行业中，超声波处理用于制造更细致的药物配方。

作文

Ultrasonic processing is a technology that utilizes high-frequency sound waves, typically above 20 kHz, to manipulate materials at the microscopic level. This innovative technique has found applications in various fields, including manufacturing, food processing, and even medicine. The essence of ultrasonic processing (超声处理) lies in its ability to enhance processes through the cavitation phenomenon, where bubbles form and collapse in a liquid medium, generating localized high temperatures and pressures. This can lead to improved mixing, emulsification, and even chemical reactions that are not achievable through traditional methods.In the manufacturing sector, ultrasonic processing (超声处理) is utilized for cleaning and surface modification of materials. For instance, ultrasonic cleaners use this technology to remove contaminants from delicate parts without causing damage. By generating high-frequency sound waves in a cleaning solution, tiny bubbles are created, which implode upon contact with surfaces, effectively dislodging dirt and grime. This method is especially valuable in industries such as aerospace and electronics, where precision and cleanliness are paramount.Moreover, in the food industry, ultrasonic processing (超声处理) has been employed to improve food quality and safety. Ultrasonic waves can enhance the extraction of flavors and nutrients from raw materials, resulting in products with better taste and nutritional value. Additionally, this technology can be used for pasteurization, where ultrasonic waves help in reducing microbial load without compromising the food's quality. This non-thermal processing method is gaining popularity due to its ability to preserve the integrity of heat-sensitive compounds.Furthermore, in the medical field, ultrasonic processing (超声处理) plays a crucial role in various diagnostic and therapeutic applications. Ultrasound imaging, for example, relies on high-frequency sound waves to create images of internal body structures. Beyond diagnostics, therapeutic ultrasound is used to promote tissue healing and reduce pain. The application of ultrasonic processing (超声处理) in drug delivery systems is also an exciting area of research, where ultrasound can facilitate the targeted release of medications within the body, enhancing their efficacy.The environmental benefits of ultrasonic processing (超声处理) cannot be overlooked either. This technology often requires less energy compared to conventional processing methods, making it a more sustainable option. Additionally, it can reduce the need for harsh chemicals in cleaning and processing, aligning with the growing demand for eco-friendly practices across industries.Despite its numerous advantages, the implementation of ultrasonic processing (超声处理) does come with challenges. The initial investment in equipment can be significant, and there may be a learning curve associated with optimizing processes for specific applications. However, as technology continues to advance and become more accessible, it is likely that ultrasonic processing (超声处理) will see wider adoption across various sectors.In conclusion, ultrasonic processing (超声处理) represents a remarkable intersection of science and technology, offering innovative solutions to age-old problems in multiple industries. Its ability to enhance processes, improve quality, and promote sustainability makes it a valuable tool in our modern world. As research continues and new applications are discovered, the future of ultrasonic processing (超声处理) looks promising, paving the way for advancements that could revolutionize how we interact with materials and products in our daily lives.

超声处理是一种利用高频声波（通常在20 kHz以上）在微观层面上操控材料的技术。这项创新技术已在制造、食品加工甚至医学等多个领域找到了应用。超声处理的精髓在于其通过气泡现象增强过程的能力，即在液体介质中形成和崩溃的气泡，产生局部高温和高压。这可以改善混合、乳化，甚至是传统方法无法实现的化学反应。在制造行业，超声处理被用于清洁和表面改性材料。例如，超声波清洗机使用此技术去除精密部件上的污染物，而不会造成损坏。通过在清洗溶液中产生高频声波，会生成微小气泡，这些气泡在接触表面时会爆炸，有效地去除污垢和污垢。这种方法在航空航天和电子等行业尤为重要，因为这些行业对精度和清洁度的要求极高。此外，在食品行业，超声处理被用于提高食品质量和安全性。超声波可以增强从原材料中提取风味和营养成分，从而生产出味道更好、营养价值更高的产品。此外，该技术还可用于巴氏消毒，超声波有助于减少微生物负荷，而不影响食品的质量。这种非热处理方法因其能够保持热敏感化合物的完整性而日益受到欢迎。此外，在医疗领域，超声处理在各种诊断和治疗应用中发挥着重要作用。超声成像例如，依赖高频声波创建内部身体结构的图像。除了诊断外，治疗超声用于促进组织愈合和减轻疼痛。超声处理在药物递送系统中的应用也是一个令人兴奋的研究领域，其中超声波可以促进药物在体内的靶向释放，提高其疗效。超声处理的环境益处也不容忽视。这项技术通常比传统处理方法需要更少的能量，使其成为更可持续的选择。此外，它可以减少清洁和加工中对强烈化学品的需求，这与各行业日益增长的环保实践需求相一致。尽管有众多优点，实施超声处理确实面临挑战。设备的初始投资可能很大，并且可能需要一定的学习曲线来优化特定应用的过程。然而，随着技术的不断进步和变得更加普及，超声处理在各个行业的更广泛采用是很可能的。总之，超声处理代表了科学与技术的显著交集，为多个行业提供了创新解决方案，以应对古老问题。其增强过程、改善质量和促进可持续发展的能力使其成为我们现代世界中一种有价值的工具。随着研究的继续和新应用的发现，超声处理的未来看起来充满希望，为我们日常生活中如何与材料和产品互动的变革铺平了道路。