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As machinists, we seldom encounter microalloy steels. But what do we need to know?
- Microalloy steel is manufactured like any other, but the chemical
ingredients added at the initial melt of the steel to make it a
microalloy include elements like Vanadium,
Columbium (sorry, Niobium for us IUPAC purists), Titanium, and higher amounts of Manganese and perhaps Molybdenum or Nickel.
- Vanadium,
Columbium
Niobium, and Titanium are also grain refiners and aggressive Oxygen
scavengers, so these steels tend to also have a very fine austenitic
grain size.
- In forgings, microalloy steels are able to develop higher
mechanical properties (yield strengths greater than say 60,000 psi)
and higher toughness as forged by just cooling in air or with a light
mist water spray.
- Normal alloy steels require a full austenitize, quench and temper
heat treatment to develop properties greater than as rolled or cold
worked.
Since microalloyed steels are able to get higher properties
using forging process heat - rather than an additional heating quenching
tempering cycle - they can be less expensive to process to get improved
mechanical properties.
The developed microstructure ultimately makes the difference. The
microstructure developed in the steel depends on the grade and type.
Tempered martensite for normal alloys.
- Normal alloy steels require a transformation to martensite that is then tempered in order to achieve higher properties.
Bainite comparable hardness improved toughness
- Microalloy steel precipitates out various nitirides or carbides and may result in either a very fine ferrite- pearlite microstructure or may transform to bainite.
For machinists, if the steel is already at its hardest condition, the
microalloyed microstructure of either ferrite pearlite or bainite is
less abrasive than that of a fully quench and tempered alloy steel.
For machinists, if the steel is already at its hardest condition, the
microalloyed microstructure of either ferrite pearlite or bainite is
less abrasive than that of a fully quench and tempered alloy steel.
P.S. The non- martensitic structures also have higher toughness.
We don't tend to machine prehardened steels in the precision
machining industry, but if you ever are part of a team developing a
process path for machining forgings, or finish cuts after induction
hardening, these facts might be good to know.
Martensite.
Georges Basement Bainite 1000X
Editor's Note: CR4 would like to thank Milo for sharing this blog entry, which appeared originally here.
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