首页|Growth behaviors of aluminum nitride in steel during laser nitriding: Insights into interfacial energy and segregation throughout its growth habit
Growth behaviors of aluminum nitride in steel during laser nitriding: Insights into interfacial energy and segregation throughout its growth habit
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NSTL
Elsevier
We present a study on laser nitriding on NAK80 steel alloy. The alloy contains Al, which results in many faceted AlN precipitates formed in the subsurface region. The AlN facets have three different crystallographic orientations, and their relationships with respect to martensite matrix were [(2) over bar 110](AlN) parallel to [(1) over bar 11](Fe), [2 (1) over bar 11](AlN) parallel to [010]F-e, and [(2) over bar 110](AlN) parallel to [001](Fe). Among these, [(2) over bar 110](AlN) parallel to [(1) over bar 11](Fe) exhibited a basal plane of AlN at approximately -5 degrees with respect to the {110}(Fe) plane, suggesting that rotation reduced the interfacial energy between AlN and the matrix. The mismatch parameters of each facet direction were calculated as 6.19%, 4.03%, and 0.86% for [(2) over bar 110](AlN) parallel to [(1) over bar 11](Fe), [2 (1) over bar 11](AlN) parallel to [010]F-e, and [(2) over bar 110](AlN) parallel to [001](Fe), respectively. Consequently, a greater degree of mismatch requires more elemental segregation to reduce the interfacial energy. The analysis results of the interfacial energy between the matrix and precipitate makes it possible to consider the efficient formation of precipitates.
NSTL
Elsevier
