refractory line

简明释义

炉墙

英英释义

例句

1.We need to replace the old refractory line 耐火线 before the next production cycle begins.

在下一个生产周期开始之前，我们需要更换旧的耐火线。

2.The engineers designed a new refractory line 耐火线 to withstand extreme thermal stress.

工程师设计了一种新的耐火线，以承受极端的热应力。

3.Proper maintenance of the refractory line 耐火线 is essential to prevent failures in high-temperature applications.

对耐火线进行适当的维护对于防止高温应用中的故障至关重要。

4.The technician adjusted the settings to optimize the performance of the refractory line 耐火线 in the furnace.

技术员调整了设置，以优化炉中耐火线的性能。

5.During the inspection, we found that the refractory line 耐火线 was showing signs of wear.

在检查中，我们发现耐火线出现了磨损的迹象。

作文

In the realm of material science and engineering, the term refractory line refers to a specific category of materials that are capable of withstanding high temperatures without melting or deforming. These materials are crucial in various industrial applications, particularly in the production of metals, ceramics, and glass. The importance of the refractory line cannot be overstated, as they play a vital role in ensuring the efficiency and safety of high-temperature processes.Refractory materials are designed to endure extreme conditions, making them indispensable in industries such as steel manufacturing, where furnaces operate at temperatures exceeding 1,500 degrees Celsius. The refractory line includes substances like alumina, silica, and magnesia, which exhibit remarkable thermal stability. Their ability to resist thermal shock and chemical corrosion allows them to maintain structural integrity under severe conditions, thereby enhancing the performance of industrial equipment.One of the key characteristics of materials within the refractory line is their low thermal conductivity. This property is essential for insulation purposes, as it minimizes heat loss and improves energy efficiency in high-temperature environments. For instance, in a blast furnace, the lining made from refractory bricks helps to retain heat, allowing for better fuel efficiency and reduced operational costs.Moreover, the refractory line also plays a significant role in the safety of industrial operations. By preventing the escape of molten metal or slag, these materials help to avert potential accidents that could arise from high-temperature reactions. The durability of refractory materials ensures that they can withstand the harsh conditions of industrial processes, thus protecting both personnel and equipment from hazards.In addition to their practical applications, the study of the refractory line has led to advancements in material science. Researchers continually seek to develop new refractory compounds that offer improved performance characteristics, such as enhanced thermal resistance and lower porosity. Innovations in this field can lead to more sustainable practices, as advanced refractory materials can contribute to reduced energy consumption and lower emissions in industrial processes.Furthermore, understanding the properties and behaviors of materials in the refractory line is crucial for engineers and scientists working in high-temperature environments. Knowledge of how these materials react under different conditions allows for better design and optimization of furnaces and kilns. This expertise is vital for maintaining operational efficiency and extending the lifespan of critical equipment.In conclusion, the refractory line encompasses a range of materials that are essential for high-temperature industrial processes. Their ability to withstand extreme conditions while providing insulation and safety makes them invaluable in various applications. As research continues to evolve, the development of new and improved refractory materials will undoubtedly enhance the efficiency and sustainability of industries reliant on high-temperature operations. Understanding the significance of the refractory line is not only important for professionals in material science but also for anyone interested in the technological advancements that drive modern industry forward.

在材料科学和工程领域，短语refractory line指的是一种特定类别的材料，这些材料能够在高温下不熔化或变形。这些材料在各种工业应用中至关重要，特别是在金属、陶瓷和玻璃的生产中。refractory line的重要性不容小觑，因为它们在确保高温工艺的效率和安全性方面发挥着重要作用。耐火材料旨在承受极端条件，使其在钢铁制造等行业中不可或缺，在这些行业中，炉子的操作温度超过1500摄氏度。refractory line包括铝土矿、硅石和镁石等物质，它们表现出显著的热稳定性。它们抵抗热冲击和化学腐蚀的能力使它们能够在严酷条件下保持结构完整性，从而提高工业设备的性能。refractory line中的材料的一个关键特征是它们的低热导率。这一特性对于绝缘目的至关重要，因为它减少了热量损失，提高了高温环境中的能效。例如，在高炉中，由耐火砖制成的衬里有助于保持热量，从而提高燃料效率和降低运营成本。此外，refractory line在工业操作的安全性方面也发挥着重要作用。通过防止熔融金属或炉渣的逸出，这些材料有助于避免可能因高温反应而引发的事故。耐火材料的耐久性确保它们能够承受工业过程的恶劣条件，从而保护人员和设备免受危险。除了实际应用外，refractory line的研究促进了材料科学的发展。研究人员不断寻求开发新的耐火化合物，以提供更好的性能特性，例如增强的热阻和较低的孔隙率。该领域的创新可以导致更可持续的实践，因为先进的耐火材料可以帮助减少工业过程中的能源消耗和排放。此外，了解refractory line中材料的性质和行为对于在高温环境中工作的工程师和科学家至关重要。了解这些材料在不同条件下的反应方式有助于更好地设计和优化炉子和窑。这种专业知识对于维护运营效率和延长关键设备的使用寿命至关重要。总之，refractory line包含一系列对高温工业过程至关重要的材料。它们在承受极端条件的同时提供绝缘和安全性，使它们在各种应用中具有不可替代的价值。随着研究的不断发展，新型耐火材料的开发无疑将增强依赖高温操作的行业的效率和可持续性。理解refractory line的重要性不仅对材料科学专业人士重要，对于任何对推动现代工业发展的技术进步感兴趣的人来说也同样重要。