miniaturization

简明释义

英[ˌmɪnətʃəraɪˈzeɪʃn]美[ˌmɪnətʃərəˈzeɪʃn]

n. 小型化，微型化

英英释义

单词用法

同义词

反义词

例句

1.Here we present a review of the miniaturization, integration, and automation in chemiluminescence detection for capillary electrophoresis.

本文综述了毛细管电泳化学发光检测系统微型化、集成化和自动化的最新研究进展。

2.The trend of high CV and miniaturization of solid tantalum electrolytic capacitors and the progress of high CV tantalum powder were briefly described.

简要地叙述了固体钽电解电容器高比容化、小型化趋势和生产高比容钽粉的方法。

3.The trend of high CV and miniaturization of solid tantalum electrolytic capacitors and the progress of high CV tantalum powder were briefly described.

简要地叙述了固体钽电解电容器高比容化、小型化趋势和生产高比容钽粉的方法。

4.The key is chromatographic separations and the capillary electrophoresis system is mast suitable for miniaturization.

色谱分离是系统中的关键技术，毛细区带电泳法最适于微型化。

5.Laser fuze circuit miniaturization is the key to laser fuze technique.

激光引信小型化是激光引信的关键技术。

6.Miniaturization of the electronic components to prevent whisker cause a short circuit accident.

小型化的电子元件需防止晶须造成短路事故。

7.Tessera still owns patents for chip packaging that enable electronics miniaturization.

Tessera还拥有实现电子设备小型化的芯片封装专利。

8.The miniaturization of components has significantly reduced the weight of laptops, making them more portable.

组件的微型化显著降低了笔记本电脑的重量，使其更便携。

9.With the miniaturization of sensors, we can now monitor environmental conditions with handheld devices.

随着传感器的微型化，我们现在可以用手持设备监测环境条件。

10.In the field of medicine, miniaturization allows for smaller and less invasive surgical tools.

在医学领域，微型化使得外科工具变得更加小巧和微创。

11.The rapid miniaturization of electronics has led to the development of smartphones that are more powerful than ever before.

电子产品的快速微型化导致了比以往更强大的智能手机的发展。

12.The miniaturization of cameras has made it possible to capture high-quality images in compact devices.

相机的微型化使得在紧凑设备中捕捉高质量图像成为可能。

作文

In recent years, the term miniaturization has become increasingly prevalent in discussions about technology and innovation. Miniaturization refers to the process of designing and producing smaller versions of devices or components while maintaining their functionality and performance. This trend is evident in various fields, including electronics, medicine, and even everyday consumer products. The impact of miniaturization on our lives is profound, leading to advancements that enhance convenience, efficiency, and accessibility.One of the most notable examples of miniaturization can be found in the field of electronics. Over the past few decades, we have witnessed a remarkable reduction in the size of electronic devices. Consider the evolution of mobile phones: from bulky, brick-like models to sleek smartphones that fit comfortably in our pockets. This transformation is largely due to miniaturization techniques that allow manufacturers to create smaller circuit boards, batteries, and components without sacrificing performance. As a result, consumers now enjoy powerful devices that offer a wide range of features, all within a compact design.Another area where miniaturization has made significant strides is in the medical field. Medical instruments and devices have undergone extensive miniaturization, enabling less invasive procedures and improved patient outcomes. For instance, traditional surgical tools have been replaced by smaller, more precise instruments that allow for minimally invasive surgeries. Additionally, diagnostic equipment such as ultrasound machines and MRI scanners have also seen a reduction in size, making them more portable and accessible to healthcare providers. This advancement not only benefits patients by reducing recovery times but also enhances the overall quality of care.The impact of miniaturization extends beyond just electronics and medicine; it has also influenced the design of everyday consumer products. Consider the way household appliances have evolved over time. Many modern appliances are designed to be compact and efficient, allowing them to fit seamlessly into smaller living spaces. For example, washing machines and dishwashers are now available in smaller sizes without compromising their capacity or performance. This shift towards miniaturization reflects changing lifestyles and the need for products that cater to urban living.However, while miniaturization brings numerous benefits, it also presents challenges. One concern is the environmental impact of producing smaller devices, which often leads to increased electronic waste. As consumers upgrade to the latest models, older devices are frequently discarded, contributing to a growing e-waste problem. Additionally, the miniaturization of components can sometimes lead to overheating issues, as smaller parts may struggle to dissipate heat effectively. Therefore, it is essential for manufacturers to balance the advantages of miniaturization with sustainable practices and reliable engineering.In conclusion, miniaturization has transformed the way we interact with technology, making it more accessible and efficient. From electronics and medical devices to everyday household products, the trend towards smaller, more powerful designs continues to shape our world. As we embrace the benefits of miniaturization, it is crucial to remain mindful of its challenges and work towards solutions that promote sustainability. Ultimately, the future of miniaturization holds great promise, and its continued evolution will undoubtedly play a pivotal role in driving innovation across various industries.

近年来，术语微型化在关于技术和创新的讨论中变得越来越普遍。微型化是指在保持功能和性能的同时，设计和生产更小版本的设备或组件的过程。这一趋势在电子、医学甚至日常消费品等多个领域都很明显。微型化对我们生活的影响深远，推动了便利性、效率和可及性的提升。在电子领域，微型化的一个显著例子就是手机的演变：从笨重的砖头般的手机到如今舒适地放入口袋的智能手机。这一转变主要得益于允许制造商创造更小电路板、电池和组件的微型化技术，从而不牺牲性能。因此，消费者现在可以享受强大的设备，提供多种功能，所有这些都在紧凑的设计中实现。在医学领域，微型化也取得了重大进展。医疗仪器和设备经历了广泛的微型化，使得手术侵入性更小，患者的结果得到了改善。例如，传统的外科工具已被更小、更精确的仪器所取代，这些仪器可以进行微创手术。此外，超声波机和MRI扫描仪等诊断设备也经历了尺寸的缩小，使它们更便携，更容易被医疗提供者使用。这一进步不仅通过缩短恢复时间使患者受益，还提高了整体护理质量。微型化的影响不仅限于电子产品和医学，它还影响了日常消费品的设计。考虑一下家用电器随着时间的推移如何演变。许多现代电器被设计得更加紧凑和高效，使其能够无缝融入更小的生活空间。例如，洗衣机和洗碗机现在有更小的尺寸可供选择，而不影响它们的容量或性能。这种向微型化的转变反映了生活方式的变化以及对适应城市生活的产品的需求。然而，虽然微型化带来了众多好处，但也提出了一些挑战。其中一个问题是生产更小设备对环境的影响，这往往导致电子废物的增加。随着消费者升级到最新型号，旧设备经常被丢弃，导致电子废物问题日益严重。此外，组件的微型化有时可能导致过热问题，因为较小的部件可能难以有效散热。因此，制造商必须在享受微型化的优势与可持续实践和可靠工程之间找到平衡。总之，微型化改变了我们与技术的互动方式，使其更加可及和高效。从电子产品和医疗设备到日常家用产品，向更小、更强大设计的趋势继续塑造我们的世界。在我们拥抱微型化的好处时，保持对其挑战的关注并寻找促进可持续发展的解决方案是至关重要的。最终，微型化的未来充满希望，其不断发展无疑将在推动各个行业的创新方面发挥关键作用。