Abstract
This paper examines possible industrial applications of high manganese steel and the feasibility of its inoculation with a new ferroalloy, vanadium nitride. The abrasive and impact-abrasion surface wear experienced by castings has a classical pattern: microcutting—i.e., the deformation twinning of surface layers. Ferrovanadium nitride enhances the surface resistance of castings both as a cast and as thermally treated. A fine grain structure is formed in the surface layers, specifically layers in direct contact with abrasive particles. The deformation twins that are present at the solid solution grain boundaries tend to change their orientation and characteristics. The impact-abrasion wear also leads to hardened layer formation at the working surface due to deformation twinning. The carbides (nitrides) present in the surface wear do not produce any significant impact on the process of deformation twinning. As the wear line extends deeper into the casting surface, the carbides and nitrides are ripped out and cavities occur in the wearing zone. The wear is controlled by the solidification rate. Thus, at lower rates a hardened layer is formed, which accommodates adjacent areas with differing twin characteristics, such as orientation and spacing.
Highlights
High manganese cast steel is an austenitic alloy with high wear resistance
The structure of the as-cast Hadfield steel consists of austenite and excess carbides, which are responsible for enhanced ductility and wear resistance
The wear mechanism followed a classical pattern: microcutting—i.e., the deformation twinning of surface layers
Summary
High manganese cast steel ( known as Hadfield steel) is an austenitic alloy with high wear resistance. It is quite often used as a cast steel in the mining industry [1,2]. The structure of the as-cast Hadfield steel consists of austenite and excess carbides, which are responsible for enhanced ductility and wear resistance. In the high manganese steel grade 110G13L, the pure austenitic structure is observed in the temperature range of 910 to 1392 ◦ C. The Hadfield steel castings are only rarely subjected to machining as they are not workable due to the hardening effect that can occur during cutting and the resultant accelerated wear of the tool
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