austenitic是一个英语单词,意思是奥氏体。发音为:英 [???st?n?t];美 [??r?st?n?t]。
austenitic英语范文如下:
1. The steel is austenitic, which means it has a certain amount of iron and carbon combined with oxygen.
钢是奥氏体型的,也就是说它含有一定量的铁和碳与氧结合。
2. The austenite is a type of iron-based alloy that is used in high-temperature environments.
奥氏体是一种在高温环境下使用的铁基合金。
3. The austenite transformation is a process that occurs when austenite steel is heated above its transformation temperature.
奥氏体相变是当奥氏体钢加热到其相变温度以上时发生的过程。
austenitic的英语作文音标和基础释义为:奥氏体,一种在高温环境下使用的铁基合金,其基础释义为钢是奥氏体型的,含有一定量的铁和碳与氧结合。在英语作文中,austenitic可以用来描述某种特定的材料或环境。
Austenitic
Austenitic is a type of alloy that is characterized by its high strength and toughness. It is commonly used in the manufacturing industry, especially in the production of steel.
Austenitic steel, for example, has a higher strength than traditional carbon steel and can be welded and shaped easily. It is commonly used in the construction industry, where it is used to build bridges, highways, and other large structures.
Another example is austenitic stainless steel, which is used in the manufacturing of kitchenware, automotive parts, and other products that require corrosion resistance.
Austenitic alloys are also used in the aerospace industry, where they are used to make parts that require high-temperature resistance and strength.
In general, austenitic alloys are very versatile and can be used in a wide range of applications. Their high strength and toughness make them very suitable for use in manufacturing industries where weight reduction and improved performance are important.
In conclusion, austenitic alloys are an essential part of modern manufacturing processes and have a wide range of applications.
Austenitic
Austenite is a type of alloy that exhibits a high degree of strength and toughness at high temperatures. It is commonly found in steel and other metallic materials. Austenite formation occurs during heat treatment when the temperature is raised above a certain critical value, and the material undergoes a transformation from austenite to martensite.
In steel, austenite can be formed by adding certain alloying elements such as nickel, chromium, and molybdenum. These elements increase the temperature at which austenite forms, and also enhance the strength and toughness of the material.
Austenitic steels are commonly used in automotive, aerospace, and other high-technology industries. They are highly corrosion-resistant and can withstand high temperatures and mechanical loads.
In addition to its mechanical properties, austenite has significant implications for energy conservation and environmental protection. By using austenitic alloys, manufacturers can reduce the amount of energy required for heat treatment and other manufacturing processes. This can lead to significant cost savings and reduce the environmental impact of manufacturing processes.
In conclusion, austenite is an important alloy that exhibits excellent mechanical properties and has significant implications for energy conservation and environmental protection. Its use in various industries has contributed to the development of advanced technologies and products.
