FeC phase diagram
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In metallurgy, the term phase is used to refer to a physically homogeneous state of matter, where the phase has a certain chemical composition and a distinct type of atomic bonding and arrangement of elements. • The microstructure of steel refers to the arrangement and distribution of its constituent phases and grains within a sample of steel at the microscopic level. • The microstructure of steel on its composition, heat treatment, and cooling rate during its manufacturing process. • The microstructure of steel is important in determining its mechanical properties such as strength, hardness, ductility, and toughness. • The main microstructural components or phases found in steel are. • ○ Ferrite • ○ Austenite • ○ Cementite • ○ Pearlite • ○ Martensite • ○ Bainite etc. • ▶ Ferrite: when carbon atoms are only in a small fraction of interstices of the iron lattices, the steel has a ferrite microstructure. • Ferrite or alpha iron ( ∝ - Fe) is a metallurgical term for a solid solution with iron as the main constituent. • It is a body-centered cubic crystal structure that is soft, ductile, and similar to pure iron. • ▶ Austenite: also known as gamma phase iron ( γ - Fe ) is a nonmagnetic face-centered cubic structure phase of iron. • This phase is a solid solution of carbon in face-centered cubic iron with a maximum solubility of 2.14%. • ▶ Cementite: also known as iron carbide is a metastable phase with a fixed composition of iron carbon (Fe3C ). • Cementite has the characteristics of a ceramic very hard and brittle, with low toughness and little resistance to crack initiation and propagation, which makes it suitable for strengthening steels. • ▶ Pearlite: In metallurgy, pearlite is a layered metallic structure of two phases, which is composed of alternating layers of ferrite at 87.5% weight, and cementite at 12.5% weight that occurs in some steels. • ▶ Martensite: is an interstitial metastable solid solution of carbon in iron. • Martensite is formed in steels when the cooling rate from austenite is sufficiently fast that carbon atoms do not have time to diffuse out of the crystal structure in large enough quantities to form cementite. • ▶ Bainite: it is a plate-like microstructure that forms in steels from austenite when the cooling rates are not fast enough to produce martensite but are rapid enough so that carbon does not have enough time to diffuse to form pearlite. • Understanding steel microstructure is necessary for designing and producing materials with specific performance attributes, ensuring the reliability and safety of countless applications from buildings and bridges to machinery and vehicles. • Watch the video till the end for a better understanding and if you find the video useful like and share the video, subscribe to the channel -https://youtube.com/@JamesSwordResear... • ★ Watch more videos from this playlist - • Physical Metallurgy • #steel #Microstructureofsteel #Steelphases.
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