Examples of 'austenite' in a sentence
Meaning of "austenite"
Austenite is a noun referring to a solid solution or metal alloy phase with a face-centered cubic crystal structure, often found in steel and iron-carbon alloys
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- A solid solution of carbon or ferric carbide in iron that exists in steel at high temperatures.
- Alternative letter-case form of austenite
- a fan or admirer of Jane Austen; someone who studies the works of Jane Austen.
How to use "austenite" in a sentence
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austenite
It is formed by the transformation of austenite by a nondiffusional mechanism.
Austenite is in equilibrium with ferrite and cementite.
C carbon content of austenite at the peritectic pe temperature.
Austenite stabilization is associated with stress relaxation.
Thorough refinement of austenite grains is therefore impossible.
Scientists will call this phase austenite.
The retained austenite causes variation in strength.
This composition has insufficient residual austenite.
It rises as the austenite grain size is refined.
Mn also contributes to the stabilization of austenite microstructure.
Hardness and retained austenite as a function of austenitizing temperature.
The diffusion coefficient of hydrogen in an austenite is low.
Not all the austenite will transform to martensite.
Nitrogen and manganese are strong austenite stabilisers.
Retained austenite may be undesirable for a number of reasons.
See also
Denotes a length of the austenite grain boundaries.
It is the hardest of the transformation products of austenite.
Percentage of transformed austenite along the radius.
The pearlite is formed by the transformation of austenite.
Ni is a very efficient austenite stabilizing element.
C is an important element for securing retained austenite.
The austenite structure is therefore coarse.
Has a mixed microstructure of austenite and ferrite.
Stabilizing an austenite makes hydrogen difficult to diffuse in steel.
The inclusion of carbon in gamma iron is called austenite.
Manganese is known as an austenite stabilizing element.
The austenite content decreases with increasing temperature.
Nitrogen is a strong austenite stabilizing element.
Effect of heating temperature on the size of austenite grains.
Stabilisation of the austenite structure by means of nitrogen addition agents.
Stabilizing stabilization of retained austenite sulphidizing.
Nickel is the main austenite stabilizing element in the composition.
The bainite stabilizes the austenite.
This is because the retained austenite produces variations in strength.
Manganese favors the formation of austenite.
Perlitic decomposition of the austenite is then said to take place.
The distribution of carbon equalises very rapidly in austenite.
Process to transform the austenite to martensite.
The heating temperature affects the amount of austenite.
Sn is concentrated at austenite grain boundaries.
Cu is an austenite stabilizing element but has a low solubility in ferrite.
Mean percentage of transformed austenite over the slice k.
This effect is related to the intergranular segregation of boron in austenite.
The resulting austenite will have a high carbon content.
Aluminium is also believed to prevent austenite grain growth.
Nickel is an austenite stabilizing element.
High manganese levels are required for austenite stability.
Ni also increases austenite stability against deformation into martensite.
Duplex stainless steel is a combination of austenite and ferrite.
High amount of residual austenite decreases the stretch flangability.
