diathermanous

简明释义

英[ˌdaɪəˈθɜːmənəs]美[ˌdaɪəˈθɜːrmənəs]

adj. 传热的；[物] 透热的

英英释义

单词用法

同义词

反义词

例句

1.Diathermanous furnace inductor, is also know as through-type inductor, it is long or short according to the length of heating workpiece and the diameter of the workpiece.

透热炉感应器，又称贯通式感应器，根据加热工件的长短和工件的直径大小，感应器有长有短。

2.According to the diathermanous principle in crystallizing, the cause of transverse waves on the surface of cast-rolled plate was analyzed, and the effective factors were discussed.

利用结晶过程的传热学原理，分析了铸轧板表面产生横向波纹的原因，探讨了影响缺陷产生的多种因素，提出了预防缺陷产生的措施。

3.In a word, during using the diathermanous inductor, it must be observed as well as checked.

总之，透热感应器在使用过程中还必须边观察边检查。

4.According to the diathermanous principle in crystallizing, the cause of transverse waves on the surface of cast-rolled plate was analyzed, and the effective factors were discussed.

利用结晶过程的传热学原理，分析了铸轧板表面产生横向波纹的原因，探讨了影响缺陷产生的多种因素，提出了预防缺陷产生的措施。

5.The furnace lining of diathermanous inductor adopts entirely knot type.

本透热感应器的炉衬采用的是整体打结式。

6.The greenhouse was designed with diathermanous 透热的 materials to maximize sunlight exposure.

温室采用了diathermanous 透热的材料，以最大限度地利用阳光。

7.Architects often prefer diathermanous 透热的 windows to enhance energy efficiency in buildings.

建筑师通常更喜欢使用diathermanous 透热的窗户，以提高建筑的能效。

8.The diathermanous 透热的 properties of the material make it ideal for solar panels.

该材料的diathermanous 透热的特性使其非常适合用于太阳能电池板。

9.In the laboratory, we use diathermanous 透热的 glass to allow infrared radiation to pass through during experiments.

在实验室，我们使用diathermanous 透热的玻璃，以便在实验过程中让红外辐射穿过。

10.The diathermanous 透热的 fabric allows for better temperature regulation in clothing.

这种diathermanous 透热的面料可以更好地调节衣物的温度。

作文

In the realm of physics, particularly in the study of thermal radiation, the term diathermanous refers to a material's ability to allow the passage of thermal radiation. This property is crucial in understanding how different substances interact with heat and light. For instance, materials that are diathermanous can transmit infrared radiation while reflecting or absorbing visible light. This characteristic is essential in various applications, from architectural design to the manufacturing of thermal insulators.Consider the implications of diathermanous materials in our daily lives. In buildings, windows made from diathermanous glass can significantly enhance energy efficiency. These windows allow sunlight to enter, warming the interior during colder months while preventing excessive heat buildup during summer. As a result, they contribute to a comfortable living environment while reducing reliance on artificial heating and cooling systems.Moreover, the concept of diathermanous materials extends beyond architecture. In the field of clothing, fabrics that exhibit diathermanous properties can provide better thermal regulation for the wearer. For example, activewear designed for athletes often incorporates diathermanous fabrics that wick moisture away from the body while allowing heat to escape. This ensures that the individual remains dry and comfortable during physical exertion.Additionally, understanding diathermanous materials is vital in scientific research, particularly in fields such as meteorology and climate science. Scientists study how different surfaces on Earth interact with solar radiation, which affects temperature and weather patterns. By analyzing diathermanous properties, researchers can develop more accurate climate models that predict changes in global temperatures and their impact on ecosystems.Furthermore, the implications of diathermanous materials are evident in the development of renewable energy technologies. Solar panels, for instance, are designed to maximize the absorption of solar energy while minimizing heat loss. By utilizing materials that are diathermanous, engineers can create more efficient solar collectors that harness energy effectively, contributing to sustainable energy solutions.In conclusion, the term diathermanous encapsulates a fundamental principle in the interaction between materials and thermal radiation. Its significance spans across various domains, including architecture, apparel, environmental science, and renewable energy. As we continue to innovate and seek sustainable solutions to modern challenges, understanding the properties of diathermanous materials will play a crucial role in our efforts to create a more energy-efficient and environmentally friendly world. By leveraging these materials, we can enhance our quality of life while also being mindful of our planet's resources.

在物理学的领域，特别是在热辐射的研究中，术语diathermanous指的是材料允许热辐射通过的能力。这一特性对于理解不同物质如何与热量和光线相互作用至关重要。例如，具有diathermanous特性的材料可以透过红外辐射，同时反射或吸收可见光。这一特性在多个应用中都是必不可少的，从建筑设计到热绝缘材料的制造。考虑一下diathermanous材料在我们日常生活中的影响。在建筑中，由diathermanous玻璃制成的窗户可以显著提高能源效率。这些窗户允许阳光进入，在寒冷的月份温暖室内，同时防止夏季过热。因此，它们有助于创造一个舒适的生活环境，同时减少对人工供暖和制冷系统的依赖。此外，diathermanous材料的概念超越了建筑学。在服装领域，表现出diathermanous特性的面料可以为穿着者提供更好的热调节。例如，为运动员设计的运动服通常采用diathermanous面料，可以将湿气从身体上排走，同时允许热量逸散。这确保了个体在进行体育活动时保持干燥和舒适。此外，理解diathermanous材料在科学研究中至关重要，特别是在气象学和气候科学等领域。科学家研究地球上不同表面如何与太阳辐射相互作用，这影响温度和天气模式。通过分析diathermanous特性，研究人员可以开发出更准确的气候模型，以预测全球温度变化及其对生态系统的影响。此外，diathermanous材料的影响在可再生能源技术的发展中也显而易见。例如，太阳能电池板的设计旨在最大限度地吸收太阳能，同时最小化热量损失。通过利用具有diathermanous特性的材料，工程师可以创建更高效的太阳能收集器，有效地利用能源，为可持续能源解决方案做出贡献。总之，术语diathermanous概括了材料与热辐射相互作用的基本原理。它的重要性跨越多个领域，包括建筑、服装、环境科学和可再生能源。随着我们继续创新并寻求可持续解决现代挑战的方案，理解diathermanous材料的特性将在我们努力创造一个更节能和环保的世界中发挥至关重要的作用。通过利用这些材料，我们可以提高生活质量，同时也关注我们星球的资源。