diathermancy

简明释义

[ˌdaɪəˈθɜːmənsi][ˌdaɪəˈθɜːrmənsi]

n. 传热性;透热性

复 数 d i a t h e r m a n c i e s

英英释义

Diathermancy refers to the property of a material that allows heat to pass through it, typically by conduction or radiation.

透热性是指一种材料允许热量通过的特性,通常通过导热或辐射的方式。

单词用法

high diathermancy

高透热性

low diathermancy

低透热性

material with diathermancy

具有透热性的材料

measuring diathermancy

测量透热性

diathermancy properties

透热性特性

diathermancy and thermal conductivity

透热性与热导率

effects of diathermancy

透热性的影响

applications of diathermancy

透热性的应用

study of diathermancy

透热性的研究

diathermancy in engineering

工程中的透热性

同义词

thermal transparency

热透光性

Materials with high thermal transparency are often used in energy-efficient buildings.

具有高热透光性的材料通常用于节能建筑中。

heat transmission

热传递

The study of heat transmission is crucial in the design of thermal insulation systems.

热传递的研究在热绝缘系统的设计中至关重要。

反义词

opacity

不透明性

The opacity of the material prevents heat from passing through.

该材料的不透明性阻止了热量的传递。

insulation

绝缘性

Insulation is crucial for maintaining temperature in buildings.

绝缘性对于维持建筑物的温度至关重要。

例句

1.Therefore, based on the knowledge of diathermancy, BP Neural network is applied to predict three dimensional temperature field of slab in this paper.

因此,本文根据传热学知识,采用BP神经网络对钢坯三维温度场进行预报。

2.The test results show that the boiler has some good qualities, such as intensified diathermancy, cleaning combustion, high efficiency, energy saving, low pollution and long lifespan etc.

实测及运行经验表明,此系列燃气锅炉具有强化传热、洁净燃烧、高效节能、低排放、经久耐用等优点。

3.In this paper, the author analy diathermancy of the automat.

分析了自动售货机的传热性能。

4.The test results show that the boiler has some good qualities, such as intensified diathermancy, cleaning combustion, high efficiency, energy saving, low pollution and long lifespan etc.

实测及运行经验表明,此系列燃气锅炉具有强化传热、洁净燃烧、高效节能、低排放、经久耐用等优点。

5.Glass is an excellent example of a material with good diathermancy properties.

玻璃是一个具有良好热透过性(diathermancy)特性的材料的优秀例子。

6.Materials with high diathermancy are often used in applications requiring effective heat transfer.

具有高热透过性(diathermancy)的材料通常用于需要有效热传递的应用中。

7.The concept of diathermancy is crucial in designing materials for thermal insulation.

热透过性(diathermancy)的概念在设计热绝缘材料时至关重要。

8.In physics, diathermancy refers to the ability of a substance to allow heat to pass through it.

在物理学中,diathermancy指的是物质允许热量通过的能力。

9.The study of diathermancy can help engineers improve the efficiency of heating systems.

对热透过性(diathermancy)的研究可以帮助工程师提高加热系统的效率。

作文

In the field of physics, the term diathermancy refers to the property of a material that allows heat to pass through it without significant absorption. This characteristic is particularly important in various applications, ranging from engineering to medicine. Understanding diathermancy can enhance our grasp of thermal conductivity and insulation properties in different materials. For instance, glass is often considered a diathermanous material because it permits infrared radiation to pass through while reflecting visible light. This unique quality makes glass an ideal choice for greenhouses, where it can trap heat from sunlight, creating a warm environment for plants.

In engineering, the concept of diathermancy plays a crucial role in the design of thermal systems. Engineers must carefully select materials based on their thermal properties to ensure efficiency and safety. A material with high diathermancy can be beneficial in heat exchangers, where the transfer of heat is essential for optimal performance. Conversely, materials with low diathermancy are often used in insulation to minimize heat loss in buildings, thereby enhancing energy efficiency.

Moreover, diathermancy has important implications in the medical field, especially concerning diathermy, a therapeutic treatment that utilizes heat to promote healing. Diathermy employs electromagnetic currents to generate heat in body tissues, aiding in pain relief and recovery. Understanding the diathermancy of various tissues helps healthcare professionals determine the appropriate methods and frequencies for effective treatment.

Furthermore, the study of diathermancy extends beyond practical applications to theoretical explorations. Researchers investigate how different materials interact with thermal radiation, leading to advancements in material science. By studying diathermancy, scientists can develop new materials that optimize heat transfer for specific applications, such as aerospace engineering or electronics cooling systems.

In conclusion, diathermancy is a multifaceted concept that intersects various disciplines, including physics, engineering, and medicine. Its significance lies in the ability to understand and manipulate the flow of heat through materials, which has far-reaching implications for technology and health. As we continue to explore the properties of materials, the understanding of diathermancy will undoubtedly play a vital role in innovation and development across multiple fields.

在物理学领域,术语diathermancy指的是一种材料的特性,允许热量通过而不会被显著吸收。这一特性在从工程到医学的各种应用中都特别重要。理解diathermancy可以增强我们对不同材料的热导率和绝缘性能的掌握。例如,玻璃通常被认为是一种透热材料,因为它允许红外辐射通过,同时反射可见光。这种独特的特性使得玻璃成为温室的理想选择,它可以捕捉阳光的热量,为植物创造温暖的环境。

在工程学中,diathermancy的概念在热系统设计中起着至关重要的作用。工程师必须根据材料的热性能仔细选择材料,以确保效率和安全。具有高diathermancy的材料在热交换器中是有益的,因为热量的转移对于最佳性能至关重要。相反,低diathermancy的材料通常用于绝缘,以最小化建筑物中的热损失,从而提高能效。

此外,diathermancy在医疗领域也具有重要意义,特别是在使用热疗法的电热疗法中,这是一种利用热量促进愈合的治疗方法。电热疗法利用电磁电流在体内组织中产生热量,有助于缓解疼痛和恢复。理解不同组织的diathermancy可以帮助医疗专业人员确定有效治疗的方法和频率。

进一步说,diathermancy的研究不仅限于实际应用,还涉及理论探索。研究人员调查不同材料如何与热辐射相互作用,从而推动材料科学的进步。通过研究diathermancy,科学家可以开发出优化特定应用的热传导的新材料,例如航空航天工程或电子冷却系统。

总之,diathermancy是一个多方面的概念,交叉了物理学、工程学和医学等多个学科。其重要性在于理解和操控热量通过材料的流动,这对技术和健康有着深远的影响。随着我们继续探索材料的特性,对diathermancy的理解无疑将在多个领域的创新和发展中发挥至关重要的作用。