multicellular glass

简明释义

泡沫玻璃

英英释义

例句

1.Using multicellular glass can significantly reduce energy costs in commercial buildings.

使用多细胞玻璃可以显著降低商业建筑的能源成本。

2.In the laboratory, researchers tested the durability of multicellular glass under extreme temperatures.

在实验室中，研究人员测试了多细胞玻璃在极端温度下的耐久性。

3.The installation of multicellular glass in greenhouses helps maintain optimal temperatures for plant growth.

在温室中安装多细胞玻璃有助于保持植物生长的最佳温度。

4.The new windows made from multicellular glass provide better sound insulation compared to traditional glass.

新型的多细胞玻璃窗户相比传统玻璃提供了更好的隔音效果。

5.The architect decided to use multicellular glass for the building's facade to improve insulation.

建筑师决定在建筑外立面使用多细胞玻璃以提高绝缘性能。

作文

In recent years, the field of materials science has witnessed remarkable advancements, particularly in the development of innovative substances. One such groundbreaking material is multicellular glass, which has garnered attention for its unique properties and potential applications. To fully appreciate the significance of multicellular glass (多细胞玻璃), it is essential to explore its structure, benefits, and possible uses in various industries.Firstly, multicellular glass is characterized by its intricate cellular structure, which consists of numerous interconnected air-filled voids within a glass matrix. This design not only reduces the overall weight of the material but also enhances its thermal insulation properties. The presence of these cells allows multicellular glass (多细胞玻璃) to trap air, creating a barrier that minimizes heat transfer. As a result, this material is particularly valuable in construction, where energy efficiency is a growing concern. Buildings constructed with multicellular glass can maintain stable indoor temperatures, significantly reducing heating and cooling costs.Moreover, the lightweight nature of multicellular glass (多细胞玻璃) opens up new possibilities in transportation. For instance, the automotive industry is always on the lookout for materials that can reduce vehicle weight without compromising safety. By incorporating multicellular glass into vehicle designs, manufacturers can produce lighter cars that consume less fuel and emit fewer greenhouse gases. This aligns with the global push towards sustainability and reducing the carbon footprint of transportation.In addition to its applications in construction and transportation, multicellular glass (多细胞玻璃) also holds promise in the field of consumer products. Its aesthetic appeal, combined with its durability, makes it an attractive option for designers and manufacturers. From household items like vases and lamps to high-end electronics, multicellular glass can be utilized to create visually stunning and functional products. Furthermore, its resistance to shattering makes it a safer alternative to traditional glass, appealing to consumers who prioritize safety and longevity in their purchases.Another fascinating aspect of multicellular glass (多细胞玻璃) is its potential in the realm of art and architecture. Artists and architects are increasingly experimenting with this material to create innovative installations and structures. The interplay of light and shadow through the cellular design can add depth and dimension to artistic expressions. This versatility allows for creative exploration, pushing the boundaries of traditional glasswork and architectural design.Despite its many advantages, the production of multicellular glass (多细胞玻璃) does come with challenges. The manufacturing process requires precise control to ensure the integrity of the cellular structure while maintaining the desired optical and mechanical properties. However, ongoing research and technological advancements are addressing these challenges, paving the way for wider adoption of this remarkable material.In conclusion, multicellular glass (多细胞玻璃) represents a significant innovation in materials science, offering a range of benefits across various industries. Its unique cellular structure provides excellent thermal insulation, lightweight properties, and aesthetic appeal, making it a versatile choice for construction, transportation, consumer products, and art. As researchers continue to refine its production techniques, we can expect to see multicellular glass play an increasingly important role in our modern world, contributing to sustainable practices and inspiring creativity in design.

近年来，材料科学领域见证了显著的进步，尤其是在创新物质的开发方面。其中一种突破性材料是多细胞玻璃，因其独特的特性和潜在的应用而受到关注。要充分理解多细胞玻璃的重要性，有必要探讨其结构、优点以及在各个行业中的可能用途。首先，多细胞玻璃的特点是其复杂的细胞结构，该结构由众多相互连接的充满空气的空隙组成，这些空隙分布在玻璃基体内。这种设计不仅减少了材料的整体重量，还增强了其热绝缘性能。这些细胞的存在使得多细胞玻璃能够捕获空气，形成一个最小化热传递的屏障。因此，这种材料在建筑行业中特别有价值，因为能源效率正日益成为关注焦点。使用多细胞玻璃建造的建筑可以保持稳定的室内温度，从而显著降低供暖和制冷成本。此外，多细胞玻璃的轻量特性为交通运输开辟了新的可能性。例如，汽车行业始终在寻找可以在不妨碍安全的情况下减轻车辆重量的材料。通过将多细胞玻璃纳入车辆设计中，制造商可以生产出更轻的汽车，从而减少燃料消耗和温室气体排放。这与全球推动可持续发展和减少交通碳足迹的努力相一致。除了在建筑和交通运输中的应用外，多细胞玻璃在消费品领域也展现出潜力。其美观的外观结合耐用性，使其成为设计师和制造商的吸引选择。从家庭用品如花瓶和灯具到高端电子产品，多细胞玻璃可以用于创造视觉上令人惊叹且功能强大的产品。此外，其抗碎裂的特性使其成为传统玻璃的安全替代品，吸引那些重视安全和耐用性的消费者。多细胞玻璃的另一个迷人之处在于它在艺术和建筑领域的潜力。艺术家和建筑师越来越多地尝试使用这种材料来创造创新的装置和结构。通过细胞设计的光影交错可以为艺术表现增添深度和维度。这种多样性允许创造性的探索，推动传统玻璃工艺和建筑设计的界限。尽管有许多优点，生产多细胞玻璃确实面临挑战。制造过程需要精确控制，以确保细胞结构的完整性，同时保持所需的光学和机械性能。然而，正在进行的研究和技术进步正在解决这些挑战，为这种卓越材料的更广泛采用铺平道路。总之，多细胞玻璃代表了材料科学中的重要创新，在各个行业提供了一系列好处。其独特的细胞结构提供了优良的热绝缘性、轻量特性和美观的外观，使其成为建筑、交通、消费品和艺术的多功能选择。随着研究人员不断完善其生产技术，我们可以期待看到多细胞玻璃在现代世界中发挥越来越重要的作用，促进可持续实践，并激发设计中的创造力。