fireclay

简明释义

英[ˈfaɪəˌkleɪ]美[ˈfaɪrˌkleɪ]

n. 火泥；耐火土

英英释义

单词用法

同义词

反义词

例句

1.The minerogenetic series of the Benxi Formation mainly includes G-bed bauxite, followed by Shanxi -type iron ores, stiff fireclay, soft fireclay, and associated gallium elements.

本溪组成矿系列主要有g层铝土矿，其次是山西式铁矿、硬质耐火粘土矿、软质耐火粘土矿和伴生镓元素。

2.The minerogenetic series of the Benxi Formation mainly includes G-bed bauxite, followed by Shanxi -type iron ores, stiff fireclay, soft fireclay, and associated gallium elements.

本溪组成矿系列主要有g层铝土矿，其次是山西式铁矿、硬质耐火粘土矿、软质耐火粘土矿和伴生镓元素。

3.The potter decided to use fireclay for his new kiln because of its high heat resistance.

陶工决定使用耐火粘土来制作他的新的窑炉，因为它具有高耐热性。

4.In construction, fireclay bricks are essential for building fireplaces and chimneys.

在建筑中，耐火粘土砖是建造壁炉和烟囱的重要材料。

5.The artist mixed fireclay with other materials to create a unique glaze for her pottery.

艺术家将耐火粘土与其他材料混合，以为她的陶器创造独特的釉面。

6.Due to its durability, fireclay is often used in industrial applications such as furnace linings.

由于其耐用性，耐火粘土通常用于工业应用，如炉 lining。

7.The manufacturer specializes in producing fireclay products for the steel industry.

该制造商专注于为钢铁行业生产耐火粘土产品。

作文

The importance of materials in construction and manufacturing cannot be overstated. Among these materials, fireclay plays a crucial role, especially in industries that require high-temperature applications. Fireclay is a type of clay that is specifically designed to withstand extreme heat without deforming or losing its structural integrity. This makes it an essential component in the production of bricks, tiles, and other refractory products. Understanding the properties and uses of fireclay can help us appreciate its significance in modern engineering and architecture. One of the key characteristics of fireclay is its ability to resist thermal shock. This means that it can handle sudden changes in temperature without cracking or breaking. This property is particularly important in the construction of kilns and furnaces, where materials are subjected to intense heat. The use of fireclay in these environments ensures that the structures remain stable and functional over time. In addition to its thermal resistance, fireclay also has excellent mechanical strength. This allows it to support heavy loads and withstand wear and tear during operation. For instance, in the steel industry, fireclay is commonly used in the linings of furnaces, where it protects the underlying materials from the extreme conditions present during metal production. Without fireclay, these furnaces would quickly deteriorate, leading to costly repairs and downtime. Moreover, fireclay is versatile and can be mixed with other materials to enhance its properties. For example, when combined with alumina, the resulting mixture can create even more durable and heat-resistant products. This adaptability makes fireclay a preferred choice for various applications across different industries, including ceramics and glass manufacturing. Another interesting aspect of fireclay is its environmental impact. As a natural material, fireclay is often sourced from clay deposits found in the earth. This means that it is a sustainable option compared to synthetic alternatives, which may involve harmful chemicals and processes. By utilizing fireclay in construction and manufacturing, industries can reduce their carbon footprint and contribute to a more sustainable future. In conclusion, fireclay is an invaluable material that has stood the test of time in various industrial applications. Its unique properties, including thermal shock resistance, mechanical strength, versatility, and sustainability, make it indispensable in high-temperature environments. As we continue to innovate and develop new technologies, the role of fireclay will undoubtedly remain significant, ensuring that we can meet the demands of modern society while maintaining safety and efficiency in our operations.

在建筑和制造中，材料的重要性不容小觑。在这些材料中，耐火粘土发挥着至关重要的作用，特别是在需要高温应用的行业中。耐火粘土是一种专门设计用于承受极端高温而不变形或失去结构完整性的粘土。这使其成为生产砖、瓦和其他耐火产品的基本成分。理解耐火粘土的特性和用途可以帮助我们欣赏它在现代工程和建筑中的重要性。 耐火粘土的一个关键特性是其抵抗热冲击的能力。这意味着它能够在温度突然变化时，不会开裂或破碎。这一特性在窑炉和熔炉的建设中尤为重要，因为这些环境中的材料会受到极端热量的影响。使用耐火粘土可以确保这些结构在长时间内保持稳定和功能。 除了耐热性，耐火粘土还具有优良的机械强度。这使其能够承受重负荷，并在操作过程中经受磨损。例如，在钢铁工业中，耐火粘土通常用于熔炉的衬里，保护底层材料免受金属生产过程中极端条件的影响。如果没有耐火粘土，这些熔炉将迅速恶化，导致昂贵的维修和停工。 此外，耐火粘土具有多样性，可以与其他材料混合以增强其性能。例如，当与铝土矿混合时，产生的混合物可以创造出更耐用和耐热的产品。这种适应性使得耐火粘土成为各个行业中各种应用的首选， 包括陶瓷和玻璃制造。 耐火粘土的另一个有趣方面是其环境影响。作为一种天然材料，耐火粘土通常来源于地球上的粘土沉积物。这意味着它相比合成替代品，更加可持续，后者可能涉及有害的化学物质和过程。通过在建筑和制造中利用耐火粘土，行业可以降低其碳足迹，为更可持续的未来做出贡献。 总之，耐火粘土是一种无价的材料，在各种工业应用中经受住了时间的考验。其独特的特性，包括耐热冲击、机械强度、多样性和可持续性，使其在高温环境中不可或缺。随着我们不断创新和开发新技术，耐火粘土的角色无疑将继续显著，确保我们能够满足现代社会的需求，同时在我们的操作中保持安全和效率。