ultraminiature
简明释义
英[ˌʌltrəˈmɪnətʃər]美[ˌʌltrəˈmɪnətʃər]
adj.极小的,超小型的
英英释义
极小的;比微型还小。 |
单词用法
同义词
反义词
| 巨大的 | 那座巨大的雕像矗立在广场中央。 | ||
| 庞大的 | 他拥有一套庞大的复古汽车收藏。 | ||
| 巨额的 | 那座巨额的建筑可以从几英里外看到。 |
例句
1.Model CS-500 ultraminiature ozone disinfector for water purification is presented, using high frequency ozone discharging technique.
本文介绍了采用高频沿面放电臭氧发生技术研制的CS—500超小型臭氧净水消毒器。
2.Model CS-500 ultraminiature ozone disinfector for water purification is presented, using high frequency ozone discharging technique.
本文介绍了采用高频沿面放电臭氧发生技术研制的CS—500超小型臭氧净水消毒器。
3.The ultraminiature 超微型 camera can capture high-resolution images in tight spots.
这款ultraminiature 超微型 相机能够在狭小的空间内捕捉高分辨率图像。
4.The artist created ultraminiature 超微型 sculptures that fit on the head of a pin.
这位艺术家创作了可以放在针尖上的ultraminiature 超微型 雕塑。
5.In electronics, ultraminiature 超微型 components are essential for making devices smaller.
在电子学中,ultraminiature 超微型 组件对于使设备更小至关重要。
6.The scientist developed an ultraminiature 超微型 robot that could navigate through tiny spaces.
科学家开发了一种能够在微小空间中导航的ultraminiature 超微型 机器人。
7.Researchers are exploring ultraminiature 超微型 sensors for use in medical diagnostics.
研究人员正在探索用于医学诊断的ultraminiature 超微型 传感器。
作文
In the realm of technology and innovation, the term ultraminiature refers to objects or components that are extremely small, often at the microscopic level. This concept has gained significant importance in various fields, including electronics, medicine, and engineering. The advancement of ultraminiature technology has revolutionized how we perceive size and functionality. For instance, in the field of electronics, manufacturers are now able to produce ultraminiature circuits that fit into devices smaller than a fingernail. This miniaturization not only enhances portability but also improves energy efficiency, allowing for longer battery life in gadgets such as smartphones and wearable devices.Moreover, the medical field has greatly benefited from ultraminiature innovations. Surgical instruments have become much smaller, enabling minimally invasive procedures that reduce recovery time for patients. For example, ultraminiature robotic surgical tools can perform complex operations with precision that was previously impossible. These advancements lead to better patient outcomes and less risk of complications during surgery.The concept of ultraminiature is not limited to physical objects; it also extends to data storage and processing. With the rise of cloud computing and big data, the need for compact data storage solutions has become paramount. Ultraminiature storage devices can now hold vast amounts of information while occupying minimal space. This has opened up new possibilities for data management and accessibility, allowing users to store and retrieve information effortlessly.However, the journey towards achieving ultraminiature designs is not without its challenges. Engineers and designers must navigate issues related to heat dissipation, signal integrity, and material properties. As components shrink, they become more susceptible to environmental factors, which can affect their performance and reliability. Therefore, ongoing research and development are crucial to overcoming these obstacles and ensuring that ultraminiature technologies can be safely and effectively implemented in real-world applications.In conclusion, the term ultraminiature encapsulates a significant trend in modern technology, where size reduction leads to enhanced functionality and efficiency. Its impact is felt across multiple disciplines, from electronics to medicine, and it continues to push the boundaries of what is possible. As we advance further into the future, the pursuit of ultraminiature solutions will undoubtedly play a critical role in shaping the next generation of innovations and improving our quality of life.
在科技和创新的领域中,术语ultraminiature指的是极小的物体或组件,通常处于微观水平。这个概念在电子、医学和工程等多个领域变得非常重要。ultraminiature技术的进步彻底改变了我们对尺寸和功能的看法。例如,在电子领域,制造商现在能够生产出比指甲还小的ultraminiature电路。这种微型化不仅增强了便携性,还提高了能效,使智能手机和可穿戴设备等小型设备的电池寿命更长。此外,医学领域也从ultraminiature创新中受益匪浅。外科手术器械变得更小,使得微创手术成为可能,从而缩短了患者的恢复时间。例如,ultraminiature机器人手术工具可以以以前无法实现的精确度进行复杂操作。这些进步导致了更好的患者结果,并减少了手术过程中并发症的风险。ultraminiature的概念不仅限于物理对象,它还扩展到数据存储和处理。随着云计算和大数据的兴起,对紧凑型数据存储解决方案的需求变得至关重要。ultraminiature存储设备现在可以在占用最小空间的同时存储大量信息。这为数据管理和访问开辟了新的可能性,使用户能够轻松存储和检索信息。然而,达到ultraminiature设计的过程并非没有挑战。工程师和设计师必须应对与热散失、信号完整性和材料特性相关的问题。随着组件缩小,它们变得更容易受到环境因素的影响,这可能会影响它们的性能和可靠性。因此,持续的研究和开发对于克服这些障碍至关重要,以确保ultraminiature技术能够安全有效地应用于现实世界的应用中。总之,术语ultraminiature概括了现代科技中的一个重要趋势,即尺寸的减小带来了功能和效率的提升。其影响遍及多个学科,从电子到医学,并继续推动着可能性的边界。随着我们进一步迈向未来,追求ultraminiature解决方案无疑将在塑造下一代创新和改善我们的生活质量中发挥关键作用。
