uncooled

简明释义

英[ʌnˈkuːld]美[ʌnˈkuld]

adj. 未冷却的，未冷凝的

英英释义

单词用法

同义词

反义词

例句

1.Thermal imaging systems based on uncooled focal plane array detectors require their optical lens with a large relative aperture.

基于非致冷焦平面阵列探测器的热成像系统，要求光学系统具有足够大的相对孔径。

2.The Mini Colibrì multi sensor system is equipped with a thermal camera (IR uncooled), TV camera (TVC) and laser range finder.

迷你Colibrì多传感器系统配备热成像仪（红外非制冷）、电视成像仪（TVC）和激光测距设备。

3.The Uncooled Infrared FPA is the key component of the microbolometer.

非制冷红外焦平面器件是微测热辐射计的核心部件。

4.After compared with the uncooled pyroelectric thermal imager, the bolometer thermal imager owns the better performance.

首先与非制冷热电热像仪进行了比较，指出测辐射热计热成像的优势。

5.Because of many advantages, uncooled focal plane thermal imaging systems are widely used in both military and civil fields.

非致冷焦平面热成像系统由于自身的众多优点，在诸多军事和民用领域都具有广泛的应用。

6.Horizontal, single stage uncooled volute casing pumps for handling of mineral and synthetic heat transfer oils.

不需冷却的单级涡壳泵，用于处理矿物或合成热传导油。

7.Temperature unstability is one of the important factors affecting the performance of an uncooled infrared focal plane detector.

温度不稳定是影响非致冷红外焦平面探测器性能的重要因素之一。

8.Preparation of thermal sensitive thin film resistor is one of key technologies in uncooled micro bolometer IR FPA fabrication.

热敏薄膜电阻制备是非致冷微测辐射热计红外焦平面的一项关键技术。

9.The MEMS technology and its main characteristics are briefly described, and then its application in uncooled infrared detector is introduced in details.

本文简要介绍了MEMS 技术的工艺及其主要特点，并对MEMS 技术在非制冷红外探测器研制方面的应用作了比较详细的阐述。

10.The uncooled air in the room made it uncomfortable to work.

房间内未冷却的空气让工作变得不舒适。

11.The engine ran at a high temperature because it was left uncooled.

由于发动机保持在未冷却状态，导致其温度过高。

12.After the test, the sample remained uncooled for several hours.

测试后，样本保持了几小时的未冷却状态。

13.Leaving the food uncooled can lead to spoilage.

将食物保持在未冷却状态可能会导致变质。

14.In the experiment, the metal was subjected to heat without being uncooled.

在实验中，金属在没有冷却的情况下受到热量的影响。

作文

In the world of engineering and technology, the term uncooled refers to systems or components that operate without a dedicated cooling mechanism. This concept is particularly relevant in the fields of electronics, thermodynamics, and even in certain applications of physics. To better understand the implications of uncooled systems, we can explore their advantages, disadvantages, and real-world applications.One of the primary advantages of uncooled systems is their simplicity. Without the need for complex cooling systems, such as fans or liquid cooling, these devices can be made smaller and lighter. This is especially beneficial in portable electronics, where weight and size are critical factors. For instance, many modern smartphones utilize uncooled processors that are designed to operate efficiently at lower temperatures, thereby eliminating the need for bulky cooling components.However, the lack of cooling mechanisms can also pose significant challenges. Components that are uncooled may be more susceptible to overheating, which can lead to decreased performance or even failure. For example, in high-performance computing environments, processors generate substantial heat during operation. If these processors are uncooled, they may throttle their performance to prevent damage, resulting in slower processing speeds.In addition to electronics, the concept of uncooled systems can be found in other areas, such as thermal imaging technology. Traditional thermal cameras often rely on cooled detectors to achieve high sensitivity and resolution. However, advancements in materials science have led to the development of uncooled thermal sensors that can operate effectively at room temperature. These uncooled sensors are less expensive and more compact, making them ideal for a wider range of applications, from building inspections to medical diagnostics.Moreover, the use of uncooled technologies is not limited to consumer electronics and thermal imaging. In the realm of space exploration, uncooled infrared sensors are used in various satellite systems. Since cooling mechanisms can add weight and complexity to spacecraft, engineers often opt for uncooled solutions to enhance reliability and reduce costs.Despite the potential drawbacks of uncooled systems, ongoing research and innovation continue to improve their performance and reliability. Engineers are developing new materials and designs that allow uncooled devices to operate at higher temperatures without compromising functionality. As technology progresses, the balance between efficiency and cooling requirements will likely shift, making uncooled systems an increasingly viable option.In conclusion, the term uncooled encompasses a wide range of applications and implications in modern technology. While these systems offer notable benefits, such as reduced size and weight, they also come with challenges like the risk of overheating. As industries continue to innovate, the future of uncooled technology looks promising, paving the way for more efficient and effective solutions across various fields. Understanding the nuances of uncooled systems is essential for anyone interested in the evolving landscape of technology and engineering.

在工程和技术的世界中，术语uncooled指的是没有专门冷却机制的系统或组件。这个概念在电子学、热力学甚至某些物理应用领域都特别相关。为了更好地理解uncooled系统的影响，我们可以探讨它们的优点、缺点和实际应用。uncooled系统的主要优点之一是其简单性。由于不需要复杂的冷却系统，如风扇或液体冷却，这些设备可以做得更小、更轻。这在便携式电子设备中尤其有利，因为重量和体积是关键因素。例如，许多现代智能手机利用设计为在较低温度下高效运行的uncooled处理器，从而消除了笨重的冷却组件的需要。然而，缺乏冷却机制也可能带来重大挑战。uncooled的组件可能更容易过热，这可能导致性能下降甚至故障。例如，在高性能计算环境中，处理器在运行时会产生大量热量。如果这些处理器是uncooled的，它们可能会降低性能以防止损坏，导致处理速度变慢。除了电子产品，uncooled系统的概念还可以在其他领域找到，例如热成像技术。传统的热像仪通常依赖于冷却探测器以实现高灵敏度和分辨率。然而，材料科学的进步导致了能够在室温下有效工作的uncooled热传感器的发展。这些uncooled传感器成本更低，更紧凑，使其成为从建筑检查到医疗诊断等更广泛应用的理想选择。此外，uncooled技术的使用并不限于消费电子和热成像。在太空探索领域，uncooled红外传感器被用于各种卫星系统。由于冷却机制可能增加航天器的重量和复杂性，工程师通常选择uncooled解决方案以增强可靠性并降低成本。尽管uncooled系统可能存在潜在缺点，但持续的研究和创新仍在不断提高其性能和可靠性。工程师正在开发新材料和设计，使uncooled设备能够在更高温度下运行，而不影响功能。随着技术的进步，效率与冷却需求之间的平衡可能会发生变化，使得uncooled系统成为越来越可行的选择。总之，术语uncooled涵盖了现代技术中广泛的应用和影响。虽然这些系统提供了显著的好处，如减小尺寸和重量，但它们也伴随着如过热风险等挑战。随着各行业的持续创新，uncooled技术的未来看起来很有前景，为各个领域提供了更高效、更有效的解决方案。理解uncooled系统的细微差别对于任何对技术和工程不断发展的格局感兴趣的人来说都是至关重要的。