The Effects Of Heat Treatment Of Quenching And Tempering On Tenax300im Tool Steel

The heat treatment is a process that acts as a key factor in the tool life of tools made with hot work tool steels. Due to their applications, the main desirable metallurgical properties of this material class are toughness and hot resistance, without which the tools may suffer premature failure, and may lead to increases in the cost of producing articles made using such tools [1, 2]. Therefore, special attention must be given to the heat treatments practiced in these steels, whose operations involve quenching and tempering. The present work carried out the effects of the austenitizing and tempering temperatures on the microstructural condition, hardness and impact properties of TENAX300IM®, modified AISI H11 with lower silicon content. Hardness was measured by the Rockwell method, C scale; the toughness was evaluated by the Charpy-V impact test; and the microstructure for each condition was evaluated by optic microscopy. It was shown that higher austenitization temperatures resulted in increased grain size and hardness; higher tempering temperatures resulted in reduction of hardness, and secondary hardening peaks were observed for some austenitization conditions. The impact resistance showed an inverse behavior to that of the hardness, remaining initially constant, up to ~ 550 ° C of tempering temperature, and then increasing with the tempering temperature. The microstructures presented great dissimilarity, mainly due to the dissolution of carbon and alloying elements in the matrix.