ultrasonically
简明释义
英[ˌʌltrəˈsɒnɪkli]美[ˌʌltrəˈsɑnɪkli]
超声地
英英释义
In a manner that relates to or uses ultrasonic waves, which are sound waves with frequencies above the audible range for humans. | 以与超声波相关或使用超声波的方式,超声波是频率高于人类听觉范围的声波。 |
单词用法
超声波清洗 | |
超声波测试 | |
超声波粘合 | |
超声波制造 |
同义词
| 声波地 | 该设备以声波方式检测材料中的缺陷。 | ||
| 声学地 | Acoustically, the system is designed to minimize noise pollution. | 在声学方面,该系统旨在减少噪音污染。 |
反义词
| 可见地 | 实验后的结果显而易见。 | ||
| 可听见地 | 他说话声音清晰,大家都能听见。 |
例句
1.Results 17 patients were operationed , the other 7 patients underwent ultrasonically guided liver biopsy. 24 cases confirmed primary carcinoma of liver by diagnostic pathology.
结果其中17例予以手术切除、另7例进行超声引导下经皮经肝组织穿刺活检术,所有病例均经病理证实为原发性肝癌患者;
2.The slides are first cleaned ultrasonically several times in alternate baths of trichlorethylene and acetone, and are then scrubbed with a mildly abrasive detergent.
首先,把载片轮流放在三氯乙烯和丙酮溶液池中,用超声清洗若干次,然后用一种中极的研磨去垢剂擦洗。
3.30 litre couplant tank. automatic pumped supply with full recirculation. visual and electronic level display. continuous couplant monitoring by flow sensor and ultrasonically.
30升的耦合剂储蓄槽。自动化泵槽装置可以将其完全循环利用。可显示直观的电子层面。通过流量传感器和超声波地来对耦合剂进行连续监控。
4.Ultrasonically nebulized distilled water (UNDW) challenge test and histamine challenge test were performed on 57 asthmatic children and 30 healthy children.
对57例哮喘儿童及30例健康儿童作超声雾化蒸馏水(UNDW)激发试验与组织胺激发试验。
5.The effect of melt treatment method on degassing efficiency of ultrasonically refined pure aluminum ingots was investigated. Furthermore, the mechanism of ultrasonic degassing was analyzed.
研究了不同的熔体处理方法对纯铝铸锭超声波除气的影响,分析了影响超声波除气效果的原因。
6.Objective To study a new therapeutic method of kidney simple cyst with ultrasonically guided percutaneous puncture.
目的研究超声引导经皮穿刺硬化治疗肾脏单纯性囊肿新方法。
7.Objective To analyze the margin of safety by ultrasonically activated scalpel in sealing blood vascular.
目的探讨超声止血刀封合血管能够抵制管腔内多大高压以及血管封合的安全范围。
8.The process for extraction of Marine algae oil by the ultrasonically aided technology was studied.
对超声强化技术提取海藻油的工艺进行研究。
9.Objective: To explore the effects of ultrasonically inhalated houttuynia cordata on sputum expectoration of patients after pneumonectomy.
目的:探讨超声雾化吸入鱼腥草液对肺癌肺切除术后病人排痰的影响。
10.The device can detect flaws in metal by scanning it ultrasonically 超声波地.
该设备可以通过超声波地扫描金属来检测缺陷。
11.In medical imaging, organs are examined ultrasonically 超声波地 to create detailed pictures.
在医学成像中,器官通过超声波地检查以创建详细的图像。
12.They used an ultrasonically 超声波地 activated device to enhance the chemical reactions.
他们使用一种超声波地激活的设备来增强化学反应。
13.The cleaning process involves washing the components ultrasonically 超声波地 to remove dirt effectively.
清洗过程涉及通过超声波地清洗组件,以有效去除污垢。
14.The researchers tested the material's properties ultrasonically 超声波地 for better accuracy.
研究人员通过超声波地测试材料的特性以提高准确性。
作文
In recent years, advancements in technology have led to the development of various innovative methods for improving industrial processes. One such method that has gained significant attention is the use of ultrasonic waves in manufacturing and quality control. The term ultrasonically (超声波地) refers to the application of sound waves at frequencies higher than the upper limit of human hearing, typically above 20 kHz. This technique is not only efficient but also environmentally friendly, making it a popular choice among modern industries.Ultrasonic technology has found its place in several fields, including cleaning, welding, and even medical diagnostics. For instance, in the cleaning industry, objects can be cleaned ultrasonically (超声波地) by immersing them in a liquid solution that is agitated by ultrasonic waves. These waves create microscopic bubbles that implode upon contact with surfaces, effectively removing dirt and contaminants without damaging delicate items. This method is particularly useful for cleaning intricate parts, such as jewelry or electronic components, where traditional cleaning methods might fall short.In addition to cleaning, ultrasonically (超声波地) driven welding techniques are revolutionizing how materials are joined together. This process involves applying ultrasonic vibrations to the interface of two materials, creating localized heating that allows them to fuse together without the need for additional adhesives or heat sources. This method is especially beneficial in industries such as automotive and aerospace, where lightweight and strong connections are crucial. By utilizing ultrasonically (超声波地) induced welding, manufacturers can produce more reliable products while reducing production times and costs.Another fascinating application of ultrasonic technology is in the field of medical diagnostics. Ultrasound imaging, commonly known as sonography, utilizes ultrasonically (超声波地) generated sound waves to create images of internal body structures. This non-invasive technique has become an essential tool in prenatal care, allowing healthcare providers to monitor the development of a fetus safely. Additionally, ultrasound is used to detect various medical conditions, making it a vital component of modern medicine.The advantages of using ultrasonic technology extend beyond efficiency and safety; they also encompass environmental considerations. Traditional cleaning methods often rely on harsh chemicals that can be harmful to both the environment and human health. In contrast, cleaning ultrasonically (超声波地) usually requires only water and biodegradable detergents, significantly reducing the ecological footprint of the manufacturing process.Despite its numerous benefits, there are challenges associated with the implementation of ultrasonically (超声波地) based technologies. For example, the initial investment in ultrasonic equipment can be substantial, which may deter some businesses from adopting this innovative approach. Furthermore, proper training is essential to ensure that workers understand how to utilize the equipment effectively and safely.In conclusion, the application of ultrasonically (超声波地) driven technologies has transformed various industries by providing efficient, safe, and environmentally friendly solutions. As research continues to advance, it is likely that we will see even more innovative uses for ultrasonic technology in the future. Embracing these advancements will not only enhance productivity but also contribute to a more sustainable industrial landscape.
近年来,技术的进步导致了各种创新方法的发展,以改善工业过程。其中一种引起重大关注的方法是超声波在制造和质量控制中的应用。术语ultrasonically(超声波地)指的是在高于人类听觉上限的频率下应用声波,通常在20 kHz以上。这种技术不仅高效,而且环保,成为现代工业中受欢迎的选择。超声波技术已在多个领域找到了自己的位置,包括清洗、焊接甚至医学诊断。例如,在清洗行业,通过将物体浸入液体溶液中并用超声波振动来进行清洗,这些波产生微小气泡,在接触表面时会发生崩溃,有效去除污垢和污染物,而不会损坏精细物品。这种方法对于清洗复杂部件(如珠宝或电子元件)特别有用,而传统的清洗方法可能无法胜任。除了清洗,ultrasonically(超声波地)驱动的焊接技术正在彻底改变材料的连接方式。这个过程涉及将超声波振动施加到两个材料的界面上,产生局部加热,使它们能够结合在一起,而无需额外的粘合剂或热源。这种方法在汽车和航空航天等行业中尤其有益,因为轻便且强大的连接至关重要。通过利用ultrasonically(超声波地)诱导的焊接,制造商可以生产出更可靠的产品,同时减少生产时间和成本。超声波技术的另一个迷人应用是在医学诊断领域。超声成像,通常称为超声检查,利用ultrasonically(超声波地)生成的声波创建内部身体结构的图像。这种非侵入性技术已成为产前护理的重要工具,允许医疗保健提供者安全地监测胎儿的发展。此外,超声波用于检测各种医疗状况,使其成为现代医学的重要组成部分。使用超声波技术的优点不仅体现在效率和安全性上,还包括环境考虑。传统的清洗方法通常依赖于对环境和人类健康有害的强力化学品。相比之下,ultrasonically(超声波地)清洗通常只需水和可生物降解的清洁剂,显著减少了制造过程的生态足迹。尽管有许多好处,但实施ultrasonically(超声波地)技术也面临挑战。例如,超声波设备的初始投资可能相当可观,这可能会阻止一些企业采用这种创新方法。此外,适当的培训对于确保工人理解如何有效和安全地使用设备至关重要。总之,基于ultrasonically(超声波地)驱动技术的应用通过提供高效、安全和环保的解决方案,改变了各个行业。随着研究的持续推进,我们可能会看到超声波技术在未来的更多创新应用。拥抱这些进步不仅会提高生产力,还会为更加可持续的工业格局做出贡献。
