miniaturisation

简明释义

[ˌmɪnɪətʃəraɪˈzeɪʃən][ˌmɪnɪətʃərɪˈzeʃən]

微型化

英英释义

The process of making something smaller in size, often referring to the design and manufacturing of miniature versions of objects or devices.

将某物缩小尺寸的过程,通常指设计和制造物体或设备的微型版本。

单词用法

the miniaturisation of technology

技术的微型化

advancements in miniaturisation

微型化的进步

miniaturisation techniques

微型化技术

miniaturisation trends

微型化趋势

achieve miniaturisation

实现微型化

drive miniaturisation

推动微型化

impact of miniaturisation

微型化的影响

benefits of miniaturisation

微型化的好处

同义词

miniaturization

微型化

The miniaturization of electronics has led to more portable devices.

电子产品的微型化导致了更便携设备的出现。

downsizing

缩小

The downsizing of machinery can improve efficiency in manufacturing.

机械的缩小可以提高制造效率。

scaling down

缩放

Scaling down the design made it feasible for consumer use.

缩放设计使其适合消费者使用。

compactification

紧凑化

Compactification of components is essential for modern technology.

组件的紧凑化对现代技术至关重要。

反义词

magnification

放大

The magnification of the image allowed us to see the details clearly.

图像的放大让我们能够清晰地看到细节。

expansion

扩展

The expansion of the device's capabilities has made it more versatile.

设备功能的扩展使其更加多功能。

例句

1.Recent development trends of multilayer ceramic capacitors are miniaturisation, lower voltage, larger capacitance, lower production cost and formation of HV MLCC series.

小型、低压、大容量化,片式高压系列化和低成本化是当前多层陶瓷电容器的主要技术发展趋势;

2.The miniaturisation of the components of computer chips has proved unstoppable.

事实证明,计算机芯片元件的微型化已经势不可挡。

3.The key, it turned out, lay in the miniaturisation and automation of analytical tools.

而关键在于微缩技术与分析工具的自动化程度。

4.This tiny open frame solenoid is one of the smallest in the Kuhnke standard range, and is shown here as an example of Kuhnke miniaturisation.

小型的开放式框架电磁阀是我们标准产品中最小的电磁阀之一。

5.If miniaturisation is successful, the team expects the device to be introduced into products within the next three years.

如果设备微缩过程成功的话,预计几年后就可以投入应用。

6.In designing new products, firms in emerging markets are leapfrogging to the latest technologies, such as miniaturisation, mobile communications and advanced materials.

在设计新产品时,处于新兴市场的公司要开发出最新的技术,例如微型设备、移动通讯技术和先进的原料。

7.That, he argued, involves identifying and developing strengths, such as logistics or miniaturisation, that cannot easily be imitated by competitors.

他认为,要找到并发挥不易被竞争对手仿效的优势,比如物流和小型化。

8.Recent development trends of multilayer ceramic capacitors are miniaturisation, lower voltage, larger capacitance, lower production cost and formation of HV MLCC series.

小型、低压、大容量化,片式高压系列化和低成本化是当前多层陶瓷电容器的主要技术发展趋势;

9.The rapid miniaturisation of electronic components has led to smaller and more efficient devices.

电子元件的快速微型化导致了更小且更高效的设备。

10.With the miniaturisation of technology, we can now carry powerful computing devices in our pockets.

随着技术的微型化,我们现在可以将强大的计算设备放在口袋里。

11.The miniaturisation of sensors has made it possible to integrate them into smartphones.

传感器的微型化使其能够集成到智能手机中。

12.The miniaturisation of cameras has revolutionized photography, making it accessible to everyone.

相机的微型化彻底改变了摄影,使每个人都能使用。

13.Advancements in miniaturisation allow scientists to create tiny robots for medical applications.

微型化方面的进步使科学家能够创造用于医疗应用的小型机器人。

作文

In recent years, the phenomenon of miniaturisation has transformed various industries, leading to significant advancements in technology and design. Miniaturisation refers to the process of making devices smaller and more compact while maintaining or even improving their functionality. This trend is particularly evident in the fields of electronics, medicine, and consumer products, where smaller size often translates to greater convenience and efficiency.One of the most notable examples of miniaturisation can be seen in the development of smartphones. Just a couple of decades ago, mobile phones were bulky and limited in functionality. However, with the advent of miniaturisation, we now have powerful devices that fit comfortably in our pockets. These smartphones combine the features of a phone, camera, computer, and more, all thanks to the ability to pack complex technology into a small form factor. The implications of this shift are profound; not only do we have access to information at our fingertips, but the ability to communicate and share experiences has never been easier.Moreover, miniaturisation has played a crucial role in the medical field. Medical devices such as pacemakers and insulin pumps have become significantly smaller, allowing for less invasive procedures and improved patient comfort. These devices can now be implanted with minimal disruption to the patient's daily life, which is a direct result of advancements in miniaturisation. Additionally, the development of portable diagnostic tools enables healthcare professionals to provide accurate assessments on-the-go, further enhancing patient care.The impact of miniaturisation extends beyond just consumer electronics and medicine; it also influences environmental sustainability. Smaller devices typically consume less energy and materials, which can lead to reduced waste and a lower carbon footprint. For instance, the transition from traditional desktop computers to laptops and tablets has not only made computing more accessible but has also contributed to a decrease in energy consumption. As society becomes increasingly aware of the need for sustainable practices, miniaturisation offers a viable solution to many challenges.However, the journey of miniaturisation is not without its challenges. As devices become smaller, the complexity of manufacturing them increases. Engineers and designers must find innovative ways to ensure that these compact devices remain reliable and efficient. Furthermore, there are limits to how small technology can get before it becomes impractical or even impossible to use. The balance between size, functionality, and usability is a delicate one that requires careful consideration.In conclusion, miniaturisation is a powerful trend that has reshaped our world in numerous ways. From smartphones to medical devices, the ability to create smaller, more efficient products has revolutionized our daily lives. As we continue to push the boundaries of what is possible through miniaturisation, it is essential to remain mindful of the challenges it presents and strive for solutions that prioritize both innovation and sustainability. The future promises exciting developments as we explore the potential of miniaturisation in various fields, ultimately enhancing our quality of life and paving the way for new technological advancements.

近年来,迷你化现象改变了各个行业,导致技术和设计的重大进步。迷你化是指在保持或甚至改善功能的同时,使设备变得更小、更紧凑的过程。这一趋势在电子、医学和消费品等领域尤为明显,因为更小的尺寸通常意味着更大的便利性和效率。迷你化最显著的例子之一可以在智能手机的发展中看到。仅仅几十年前,移动电话笨重且功能有限。然而,随着迷你化的出现,我们现在拥有强大的设备,可以舒适地放在口袋里。这些智能手机结合了电话、相机、计算机等多种功能,这都要归功于将复杂技术打包成小型形式的能力。这一转变的影响深远;不仅让我们的信息触手可及,而且沟通和分享体验的能力从未如此简单。此外,迷你化在医疗领域也发挥了至关重要的作用。心脏起搏器和胰岛素泵等医疗设备变得显著更小,从而实现了更少侵入性的程序和改善了患者的舒适度。这些设备现在可以在对患者日常生活造成最小干扰的情况下植入,这直接得益于迷你化的进步。此外,便携式诊断工具的发展使医疗专业人员能够随时随地提供准确的评估,进一步提升了患者护理。迷你化的影响不仅限于消费电子和医学,还影响环境可持续性。较小的设备通常消耗更少的能源和材料,这可以减少废物和降低碳足迹。例如,从传统台式计算机过渡到笔记本电脑和平板电脑不仅使计算更加方便,而且还促成了能耗的减少。随着社会越来越意识到可持续实践的必要性,迷你化为许多挑战提供了可行的解决方案。然而,迷你化的旅程并非没有挑战。随着设备变得更小,制造它们的复杂性增加。工程师和设计师必须寻找创新的方法,以确保这些紧凑设备仍然可靠且高效。此外,在技术变得不切实际或甚至无法使用之前,设备的尺寸也有其限制。大小、功能和可用性之间的平衡是一个微妙的问题,需要仔细考虑。总之,迷你化是一种强大的趋势,在许多方面重塑了我们的世界。从智能手机到医疗设备,创造更小、更高效产品的能力革命性地改变了我们的日常生活。随着我们继续突破迷你化的可能性界限,保持对所面临挑战的关注,并努力寻求优先考虑创新和可持续性的解决方案是至关重要的。未来承诺着令人兴奋的发展,因为我们探索迷你化在各个领域的潜力,最终提升我们的生活质量,为新技术进步铺平道路。