troostite
简明释义
n. 屈氏体;锰硅锌矿
英英释义
Troostite is a mineral that is a variety of the mineral olivine, primarily composed of iron and magnesium silicates. | Troostite是一种矿物,是橄榄石的一种变种,主要由铁和镁硅酸盐组成。 |
单词用法
troostite 矿物 | |
troostite 形成 | |
troostite 含量 | |
troostite 的存在 | |
troostite 的特征 | |
troostite 的分析 |
同义词
马氏体 | 马氏体是在钢材快速冷却时形成的。 | ||
贝氏体 | Bainite is a microstructure that forms at intermediate temperatures. | 贝氏体是在中间温度下形成的一种微观结构。 |
反义词
马氏体 | 马氏体以其硬度和强度而闻名。 | ||
奥氏体 | Austenite is stable at high temperatures and is non-magnetic. | 奥氏体在高温下稳定,并且是非磁性的。 |
例句
1.The mechanical properties testing, microstructure observation and fractographic features analysis of the troostite high chromium cast iron blade were carried out.
通过金相、性能和热处理试验,对盘条拉丝断裂原因进行了分析,认为盘条存在屈氏体组织是断裂的根本原因。
2.The mechanical properties testing, microstructure observation and fractographic features analysis of the troostite high chromium cast iron blade were carried out.
通过金相、性能和热处理试验,对盘条拉丝断裂原因进行了分析,认为盘条存在屈氏体组织是断裂的根本原因。
3.And in its transition zone, the hardness is remarkably reduced owing to the troostite precipitated.
过渡区由于发生托氏体转变,硬度明显下降。
4.The result proves that the accumulate line is caused by heat treatment defect, soft troostite tape.
结果表明,活塞杆在磁粉探伤中显现的螺旋形磁粉堆积线是由热处理缺陷一屈氏体软带造成的。
5.The mineral sample contained a significant amount of troostite, which is known for its unique properties.
该矿物样本含有大量的troostite,它以其独特的性质而闻名。
6.Geologists often study troostite to understand the conditions under which it forms.
地质学家经常研究troostite以了解它形成的条件。
7.In metallurgy, troostite can influence the hardness of steel.
在冶金学中,troostite可以影响钢的硬度。
8.The presence of troostite in the alloy improved its wear resistance.
合金中troostite的存在提高了其耐磨性。
9.During the experiment, we identified troostite as a key component in the reaction.
在实验过程中,我们确定troostite是反应中的一个关键成分。
作文
In the world of geology and mineralogy, various minerals play crucial roles in understanding the Earth's processes. One such mineral is troostite, which is a key component in the study of iron and steel metallurgy. Troostite is a microstructure that forms during the cooling of steel and is characterized by its unique properties that influence the material's hardness and strength. This microstructure is particularly important for engineers and metallurgists who seek to enhance the performance of steel in various applications. The formation of troostite occurs when steel is cooled at a specific rate, allowing for the transformation of austenite into a structure that contains both cementite and ferrite. Understanding this process is vital because it helps in predicting the mechanical properties of steel. For instance, high levels of troostite can lead to increased hardness, making it suitable for tools and machinery that require durability and resistance to wear. Moreover, troostite plays a significant role in the heat treatment processes used in metallurgy. By manipulating the cooling rates and temperatures, metallurgists can control the amount of troostite formed in steel, thus tailoring its properties to meet specific requirements. This ability to engineer materials at the microscopic level is what allows for advancements in technology and construction, as stronger and more resilient steel can be produced. In addition to its technical significance, troostite also serves as an example of how microscopic structures can have macroscopic effects. The study of troostite and other microstructures illustrates the intricate relationship between the composition of materials and their performance in real-world scenarios. As industries continue to evolve, the demand for materials with superior properties will only increase, highlighting the importance of understanding minerals like troostite. Furthermore, research into troostite is ongoing, with scientists exploring its potential applications beyond traditional metallurgy. For instance, the insights gained from studying troostite may lead to innovations in manufacturing processes, where the efficiency and effectiveness of materials can be optimized. As sustainability becomes a pressing concern, the development of stronger materials could also contribute to reducing waste and enhancing the longevity of products. In conclusion, troostite is more than just a mineral; it represents a critical aspect of material science that bridges the gap between theory and practical application. Its influence on the properties of steel underscores the importance of understanding microstructural changes in materials. As we continue to explore the possibilities within the realm of metallurgy, troostite will undoubtedly remain a focal point for researchers and engineers alike, driving innovation and improving the materials that shape our world.
在地质学和矿物学的世界中,各种矿物在理解地球过程方面发挥着至关重要的作用。其中一种矿物是troostite,它是研究铁和钢冶金中的关键组成部分。Troostite是一种微观结构,在钢的冷却过程中形成,具有独特的特性,影响材料的硬度和强度。这种微观结构对于寻求提高钢材在各种应用中性能的工程师和冶金学家尤为重要。 Troostite的形成发生在钢以特定速率冷却时,允许奥氏体转变为含有水泥石和铁素体的结构。理解这一过程至关重要,因为它有助于预测钢的机械性能。例如,高水平的troostite可以导致硬度增加,使其适合用于需要耐用性和抗磨损性的工具和机械。 此外,troostite在冶金中使用的热处理过程中也起着重要作用。通过操纵冷却速率和温度,冶金学家可以控制钢中形成的troostite的数量,从而将其特性调整到满足特定要求。这种在微观层面上工程材料的能力使得技术和建筑的进步成为可能,因为可以生产出更强大和更耐用的钢材。 除了其技术意义外,troostite还作为微观结构对宏观效果产生影响的例子。对troostite和其他微观结构的研究说明了材料成分与其在现实场景中的性能之间的复杂关系。随着工业的不断发展,对具有优越特性的材料的需求只会增加,这突显了理解像troostite这样的矿物的重要性。 此外,关于troostite的研究仍在继续,科学家正在探索其超越传统冶金的潜在应用。例如,从研究troostite中获得的见解可能会导致制造过程中的创新,其中材料的效率和有效性可以得到优化。随着可持续性成为一个紧迫的问题,开发更强大的材料也可能有助于减少浪费并增强产品的使用寿命。 总之,troostite不仅仅是一种矿物;它代表了材料科学的一个关键方面,弥合了理论与实际应用之间的差距。它对钢材性能的影响强调了理解材料微观结构变化的重要性。随着我们继续探索冶金领域内的可能性,troostite无疑将继续成为研究人员和工程师关注的焦点,推动创新并改善塑造我们世界的材料。
文章标题:troostite的意思是什么
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