ferromanganese

简明释义

英[ˌferəʊˈmæŋɡəniːz]美[ˌferoˈmæŋɡəˌnis]

n. 锰铁；铁锰齐

英英释义

单词用法

同义词

反义词

例句

1.Ferromanganese slag has the latent hydraulicity and volcanic ash, it can be used to build concrete admixtures and cement.

锰铁合金渣具有潜在的水硬性和火山灰性，可用作混凝土掺合料和水泥混合材料。

2.Thus, many researches have been performed on ferromanganese slag for recycling.

对锰铁合金渣进行处理，变废为宝，已经成为重要的研究课题。

3.The solid phase decarbonization of high carbon ferromanganese has been the research hotspot because of avoiding evaporation loss of manganese at high temperature.

高碳锰铁的固相脱碳由于能够避免金属锰的高温挥发损失而成为研究的热点。

4.This paper precent how the Bayi manganese Mine to optimize the burden composition of the ferromanganese BF, resulting to improve production situation.

介绍八一锰矿新建的锰铁高炉采用了优化炉料结构，扭转生产被动局面，使各项经济指标达到了开炉以来的最好水平。

5.The factors of affection to increase output of ferromanganese is analyzed, it points out measures to increase output of ferromanganese combining with the practical production.

分析了影响锰铁产量的因素，结合实际生产情况，指出了提高锰铁产量的措施。

6.The utilization of water quenched slag from ferromanganese blast furnace is discussed.

深入地探讨了锰铁高炉水淬矿渣的利用。

7.We attempt to recover the paleoenvironments recorded in the accretion of a typical new-type hydrogenetic ferromanganese crust from the deep water areas of the East Philippine Sea.

尝试恢复东菲律宾海新型深水水成富铁锰结壳典型样品生长过程中所记录的古海洋环境。

8.The activity of blast furnace ferromanganese slag has relationship with its chemical composition, the content of vitreous body, the complete degree of new generated crystals and fineness.

高炉锰铁矿渣的活性与其化学组成、玻璃体含量、新生成的晶体完整程度及细度有关。

9.The practice of smelting ferromanganese silicon with slag of high carbon ferrochrome is introduced.

介绍了用高碳铬铁渣做造渣剂冶炼锰硅合金的生产实践。

10.The steel industry heavily relies on ferromanganese for improving the strength and toughness of steel.

钢铁工业严重依赖锰铁来提高钢铁的强度和韧性。

11.In the production of stainless steel, ferromanganese plays a crucial role in enhancing corrosion resistance.

在不锈钢的生产中，锰铁在增强耐腐蚀性方面起着至关重要的作用。

12.The addition of ferromanganese during the smelting process can significantly reduce sulfur content in steel.

在冶炼过程中加入锰铁可以显著降低钢中的硫含量。

13.Manufacturers often use ferromanganese to produce high-carbon steel for automotive applications.

制造商通常使用锰铁来生产用于汽车应用的高碳钢。

14.The quality of ferromanganese can greatly affect the final properties of the alloy produced.

锰铁的质量会极大影响所生产合金的最终性能。

作文

In the world of metallurgy, various alloys play a crucial role in enhancing the properties of metals. One such important alloy is ferromanganese, which is primarily composed of manganese and iron. This alloy is widely used in steelmaking due to its ability to improve the overall quality and strength of steel. The significance of ferromanganese cannot be overstated, as it contributes to the production of high-quality steel that meets the demands of various industries, from construction to automotive manufacturing. The production of ferromanganese involves the reduction of manganese ore in the presence of iron. This process typically takes place in a blast furnace or an electric arc furnace, where temperatures reach extreme levels, allowing for the extraction of manganese. The resulting alloy contains a high percentage of manganese, usually between 70% to 80%, along with varying amounts of iron. This unique composition gives ferromanganese its distinctive properties, making it a vital component in steel production. One of the primary functions of ferromanganese in steelmaking is to act as a deoxidizer. When molten steel is produced, it often contains impurities such as oxygen, which can weaken the final product. By adding ferromanganese, the manganese reacts with the oxygen, forming manganese oxide, which can then be removed from the steel. This process not only purifies the steel but also enhances its mechanical properties, making it stronger and more durable. Moreover, ferromanganese plays a significant role in improving the toughness and wear resistance of steel. Manganese is known for its ability to enhance the hardness of steel, which is particularly important in applications where high strength and durability are required. For example, in the manufacturing of rail tracks and heavy machinery, the addition of ferromanganese ensures that the steel can withstand harsh conditions and heavy loads without failing. In addition to its mechanical benefits, ferromanganese also influences the corrosion resistance of steel. Manganese contributes to the formation of protective layers on the surface of steel, helping to prevent rust and degradation over time. This characteristic is especially valuable in environments where steel structures are exposed to moisture and other corrosive elements. As industries continue to evolve and demand higher quality materials, the importance of ferromanganese in steelmaking will only increase. With advancements in technology and manufacturing processes, the efficiency of ferromanganese production is also improving, leading to more sustainable practices in the industry. Companies are now exploring ways to recycle manganese from scrap steel, reducing the need for new ore and minimizing environmental impact. In conclusion, ferromanganese is an essential alloy in the field of metallurgy, particularly in steelmaking. Its unique properties enhance the strength, toughness, and corrosion resistance of steel, making it a critical component in various applications. As the demand for high-quality steel continues to grow, the role of ferromanganese will remain pivotal in ensuring that the steel industry meets the challenges of the future. Understanding the significance of ferromanganese not only highlights its importance in metal production but also emphasizes the ongoing need for innovation and sustainability in metallurgy.

在冶金领域，各种合金在增强金属性能方面发挥着至关重要的作用。其中一种重要的合金是ferromanganese，它主要由锰和铁组成。这种合金广泛用于钢铁制造，因为它能够提高钢铁的整体质量和强度。ferromanganese的重要性不容小觑，因为它有助于生产满足各个行业需求的高质量钢铁，从建筑到汽车制造。 ferromanganese的生产涉及在铁的存在下还原锰矿石。这个过程通常发生在高炉或电弧炉中，在极高的温度下进行，使锰得以提取。最终的合金含有较高比例的锰，通常在70%到80%之间，并伴有不同数量的铁。这种独特的成分赋予了ferromanganese其独特的性质，使其成为钢铁生产中的重要组成部分。 ferromanganese在钢铁制造中的主要功能之一是作为脱氧剂。当熔融钢被生产时，通常会含有氧等杂质，这可能会削弱最终产品。通过添加ferromanganese，锰与氧反应，形成锰氧化物，然后可以从钢中去除。这个过程不仅净化了钢铁，还增强了其机械性能，使其更强大、更耐用。 此外，ferromanganese在提高钢铁的韧性和耐磨性方面也发挥着重要作用。锰以其增强钢铁硬度的能力而闻名，这在需要高强度和耐用性的应用中尤为重要。例如，在轨道和重型机械的制造中，添加ferromanganese确保钢铁能够承受恶劣的条件和重负荷而不会失效。 除了机械优势外，ferromanganese还影响钢铁的耐腐蚀性。锰有助于在钢铁表面形成保护层，帮助防止生锈和降解。这一特性在钢结构暴露于潮湿和其他腐蚀性元素的环境中尤为重要。 随着工业不断发展并对高质量材料的需求增加，ferromanganese在钢铁制造中的重要性只会增加。随着技术和制造工艺的进步，ferromanganese的生产效率也在提高，导致行业内更可持续的实践。公司现在正在探索从废钢中回收锰的方法，减少对新矿石的需求，最小化环境影响。 总之，ferromanganese是冶金领域，特别是在钢铁制造中不可或缺的合金。其独特的性质增强了钢铁的强度、韧性和耐腐蚀性，使其在各种应用中成为关键组件。随着对高质量钢铁的需求不断增长，ferromanganese的作用将在确保钢铁行业应对未来挑战方面保持关键。理解ferromanganese的重要性不仅突显了其在金属生产中的重要性，也强调了冶金领域对创新和可持续发展的持续需求。