ultrasonic technology

简明释义

超声波工艺学

英英释义

例句

1.The use of ultrasonic technology in cleaning delicate jewelry ensures that no damage is done to the pieces.

使用超声波技术清洗精致的珠宝可以确保不会对这些饰品造成损害。

2.Manufacturers are adopting ultrasonic technology for more efficient welding processes.

制造商正在采用超声波技术以提高焊接过程的效率。

3.The food industry utilizes ultrasonic technology for better emulsification of ingredients.

食品行业利用超声波技术来更好地乳化成分。

4.In medical imaging, ultrasonic technology is crucial for non-invasive examinations.

在医学成像中，超声波技术对于非侵入性检查至关重要。

5.With ultrasonic technology, pest control methods have become more effective and environmentally friendly.

利用超声波技术，害虫控制方法变得更加有效且环保。

作文

In recent years, the application of ultrasonic technology (超声波技术) has gained significant attention across various fields, including medicine, manufacturing, and environmental monitoring. This innovative technology utilizes sound waves at frequencies higher than the audible range for humans, typically above 20 kHz. The unique properties of these sound waves enable a myriad of applications that have transformed traditional practices into more efficient and effective methods.One of the most notable applications of ultrasonic technology (超声波技术) is in the medical field, particularly in diagnostic imaging. The use of ultrasound machines allows healthcare professionals to visualize internal organs, monitor fetal development during pregnancy, and even guide minimally invasive surgical procedures. The non-invasive nature of this technology reduces risks associated with other imaging techniques, such as X-rays, making it a preferred choice for many patients.Moreover, ultrasonic technology (超声波技术) plays a crucial role in industrial cleaning processes. Ultrasonic cleaners use high-frequency sound waves to create millions of tiny bubbles in a liquid solution. When these bubbles implode, they produce powerful shockwaves that dislodge dirt and contaminants from surfaces, even in hard-to-reach areas. This method is not only effective but also environmentally friendly, as it often requires fewer harsh chemicals compared to traditional cleaning methods.In addition to cleaning, ultrasonic technology (超声波技术) is also employed in the field of welding. Ultrasonic welding is a process that uses high-frequency vibrations to join materials together, typically plastics and metals. This technique offers several advantages, including reduced energy consumption, shorter processing times, and improved joint strength. As industries continue to seek more sustainable practices, ultrasonic welding presents an attractive alternative to conventional welding methods.Environmental monitoring is another area where ultrasonic technology (超声波技术) has made a significant impact. It is used to assess water quality by measuring the levels of pollutants and contaminants through ultrasonic sensors. These sensors can detect changes in sound wave propagation caused by different substances in the water, providing real-time data that is essential for maintaining healthy ecosystems.Despite its many advantages, the implementation of ultrasonic technology (超声波技术) is not without challenges. For instance, the cost of ultrasonic equipment can be high, which may deter smaller businesses from adopting this technology. Additionally, proper training is required to ensure that operators can effectively use the equipment and interpret the results accurately. However, as technology continues to advance and become more accessible, it is likely that we will see increased adoption across various sectors.In conclusion, ultrasonic technology (超声波技术) represents a remarkable advancement that has revolutionized multiple industries. From enhancing medical diagnostics to improving manufacturing processes and aiding environmental protection, its applications are vast and varied. As research continues to uncover new possibilities, the future of ultrasonic technology (超声波技术) appears bright, promising further innovations that could change the way we live and work. Embracing this technology will not only improve efficiency but also contribute to a more sustainable future.

近年来，超声波技术（ultrasonic technology）的应用在医学、制造业和环境监测等多个领域引起了广泛关注。这项创新技术利用人类听觉范围以上的高频声波，通常在20 kHz以上。这些声波的独特属性使其能够进行多种应用，彻底改变了传统做法，使其变得更加高效和有效。其中，超声波技术（ultrasonic technology）在医学领域的一个显著应用是诊断成像。超声波机器的使用使医疗专业人员能够可视化内部器官，在怀孕期间监测胎儿发育，甚至指导微创手术。该技术的非侵入性特征降低了与其他成像技术（如X光）相关的风险，使其成为许多患者的首选。此外，超声波技术（ultrasonic technology）在工业清洁过程中也发挥了至关重要的作用。超声波清洗机利用高频声波在液体溶液中产生数百万个微小气泡。当这些气泡发生爆炸时，会产生强大的冲击波，清除表面的污垢和污染物，即便是在难以到达的地方。这种方法不仅有效，而且环保，因为它通常需要比传统清洁方法更少的强力化学品。除了清洁，超声波技术（ultrasonic technology）还被用于焊接领域。超声波焊接是一种使用高频振动将材料（通常是塑料和金属）结合在一起的工艺。这种技术具有若干优点，包括减少能源消耗、缩短加工时间和提高接头强度。随着各行业继续寻求更可持续的实践，超声波焊接为传统焊接方法提供了一个有吸引力的替代方案。环境监测是超声波技术（ultrasonic technology）产生重大影响的另一个领域。通过超声波传感器，评估水质，测量水中污染物和污染物的水平。这些传感器可以通过不同物质对声波传播造成的变化来检测水中的变化，提供实时数据，这对维护健康生态系统至关重要。尽管有许多优点，但实施超声波技术（ultrasonic technology）并非没有挑战。例如，超声波设备的成本可能很高，这可能会阻碍小型企业采用这项技术。此外，操作人员需要接受适当的培训，以确保他们能够有效地使用设备并准确解释结果。然而，随着技术的不断进步和变得更加可及，我们可能会看到各个行业的日益采用。总之，超声波技术（ultrasonic technology）代表了一项显著的进步，彻底改变了多个行业。从增强医学诊断到改善制造过程以及协助环境保护，其应用广泛而多样。随着研究不断发现新的可能性，超声波技术（ultrasonic technology）的未来看起来光明，承诺进一步的创新，这可能会改变我们生活和工作的方式。拥抱这项技术不仅会提高效率，还将有助于实现更可持续的未来。