heat-insulating capability
简明释义
隔热能力
英英释义
The ability of a material to reduce the transfer of heat between two areas, thereby maintaining a desired temperature in a specific environment. | 材料减少热量在两个区域之间传递的能力,从而在特定环境中保持所需温度。 |
例句
1.The insulation in the walls provides significant heat-insulating capability 隔热性能, keeping the house warm in winter.
墙壁中的绝缘材料提供了显著的heat-insulating capability 隔热性能,使房子在冬天保持温暖。
2.The new building materials have excellent heat-insulating capability 隔热性能, which reduces energy consumption.
新型建筑材料具有优良的heat-insulating capability 隔热性能,可以减少能耗。
3.When choosing windows, look for those with high heat-insulating capability 隔热性能 to improve energy efficiency.
在选择窗户时,寻找那些具有高heat-insulating capability 隔热性能的窗户,以提高能效。
4.The heat-insulating capability 隔热性能 of this foam material is ideal for refrigeration applications.
这种泡沫材料的heat-insulating capability 隔热性能非常适合制冷应用。
5.This jacket is designed with advanced heat-insulating capability 隔热性能 to keep you warm in extreme cold.
这款夹克采用先进的heat-insulating capability 隔热性能设计,可以在极寒天气中保持温暖。
作文
In today's world, where energy efficiency and sustainability are becoming increasingly important, the term heat-insulating capability (隔热能力) has gained significant attention. This concept refers to the ability of materials to resist the transfer of heat, thereby maintaining a stable temperature within a given environment. Understanding this capability is crucial for various applications, including construction, manufacturing, and even clothing design.To begin with, in the construction industry, the heat-insulating capability (隔热能力) of building materials plays a vital role in energy conservation. For instance, buildings with high thermal insulation can significantly reduce the need for heating in winter and cooling in summer. This not only leads to lower energy bills for homeowners but also contributes to a decrease in greenhouse gas emissions. Materials such as fiberglass, foam board, and certain types of concrete are often used for their excellent heat-insulating capability (隔热能力). By choosing the right materials, architects and builders can create structures that are both comfortable and environmentally friendly.Moreover, the heat-insulating capability (隔热能力) is not limited to buildings alone. In the manufacturing sector, products that require temperature regulation, such as refrigerators and ovens, benefit greatly from materials with high thermal insulation. For example, the use of advanced insulating foams in refrigerators helps maintain low temperatures inside while preventing external heat from entering. This efficiency not only preserves food quality but also reduces energy consumption, making it an important consideration for manufacturers aiming to produce sustainable appliances.In addition to construction and manufacturing, the heat-insulating capability (隔热能力) is also relevant in the field of textiles. Clothing designed for extreme weather conditions often incorporates materials with superior thermal insulation properties. For instance, down jackets and thermal underwear utilize materials that trap body heat while allowing moisture to escape. This combination ensures that individuals remain warm without overheating, demonstrating the practical application of heat-insulating capability (隔热能力) in everyday life.Furthermore, advancements in technology have led to the development of new materials that enhance heat-insulating capability (隔热能力). Innovations such as aerogels and phase change materials are at the forefront of thermal insulation technology. Aerogels, known for their lightweight and porous structure, provide exceptional thermal resistance, making them ideal for various industrial applications. Phase change materials, on the other hand, can absorb and release heat during phase transitions, effectively regulating temperature fluctuations. These cutting-edge solutions highlight the ongoing research and development aimed at improving thermal insulation across multiple sectors.In conclusion, the heat-insulating capability (隔热能力) is a critical factor in enhancing energy efficiency and sustainability in various industries. From construction to manufacturing and textiles, understanding and utilizing materials with superior thermal insulation properties can lead to significant benefits, including reduced energy costs and environmental impact. As we continue to face challenges related to climate change and resource conservation, the importance of heat-insulating capability (隔热能力) will only grow, driving innovation and progress towards a more sustainable future.
在当今世界,能源效率和可持续性变得越来越重要,短语heat-insulating capability(隔热能力)引起了广泛关注。这个概念指的是材料抵抗热量转移的能力,从而保持给定环境内的稳定温度。理解这种能力对于建筑、制造甚至服装设计等各种应用至关重要。首先,在建筑行业,建筑材料的heat-insulating capability(隔热能力)在节能方面发挥着至关重要的作用。例如,具有高热绝缘性的建筑可以显著减少冬季取暖和夏季降温的需求。这不仅降低了房主的能源账单,还减少了温室气体排放。诸如玻璃纤维、泡沫板和某些类型的混凝土等材料因其优良的heat-insulating capability(隔热能力)而被广泛使用。通过选择合适的材料,建筑师和施工者可以创造出既舒适又环保的结构。此外,heat-insulating capability(隔热能力)并不限于建筑。在制造行业,需要温度调节的产品,如冰箱和烤箱,极大地受益于具有高热绝缘性的材料。例如,冰箱中使用的先进绝缘泡沫有助于保持内部低温,同时防止外部热量进入。这种效率不仅保持了食品质量,还减少了能源消耗,这对旨在生产可持续电器的制造商来说是一个重要考虑。除了建筑和制造,heat-insulating capability(隔热能力)在纺织领域也很相关。为极端天气条件设计的服装通常采用具有优越热绝缘性能的材料。例如,羽绒服和保暖内衣利用能够捕捉体热同时允许湿气逃逸的材料。这种组合确保个人在不 overheating 的情况下保持温暖,展示了heat-insulating capability(隔热能力)在日常生活中的实际应用。此外,技术的进步导致新材料的发展,从而增强了heat-insulating capability(隔热能力)。气凝胶和相变材料等创新处于热绝缘技术的前沿。气凝胶以其轻质和多孔结构而闻名,提供卓越的热阻力,使其成为各种工业应用的理想选择。另一方面,相变材料在相变过程中可以吸收和释放热量,有效调节温度波动。这些尖端解决方案突显了旨在改善多个行业热绝缘的持续研究和开发。总之,heat-insulating capability(隔热能力)是提高各个行业能源效率和可持续性的关键因素。从建筑到制造和纺织,理解和利用具有优越热绝缘性能的材料可以带来显著的好处,包括降低能源成本和环境影响。随着我们继续面临与气候变化和资源保护相关的挑战,heat-insulating capability(隔热能力)的重要性只会增加,推动创新和进步,朝着更可持续的未来迈进。
