Abstract
In this work 300M steel samples is used. This high-strength steel is used in aeronautic and aerospace industry and other structural applications. Initially the 300 M steel sample was submitted to a heat treatment to obtain a bainític structure. It was heated at 850 °C for 30 minutes and after that, cooled at 300 °C for 60 minutes. Afterwards two types of surface treatments have been employed: (a) using low-power laser CO2 (125 W) for introducing carbon into the surface and (b) plasma nitriding at a temperature of 500° C for 3 hours. After surface treatment, the metallographic preparation was carried out and the observations with optical and electronic microscopy have been made. The analysis of the coating showed an increase in the hardness of layer formed on the surface, mainly, among the nitriding layers. The mechanical properties were analyzed using tensile and fatigue tests. The results showed that the mechanical properties in tensile tests were strongly affected by the bainitic microstructure. The steel that received the nitriding surface by plasma treatment showed better fatigue behavior. The results are very promising because the layer formed on steel surface, in addition to improving the fatigue life, still improves protection against corrosion and wear.
Highlights
The 300 M is an important steel grade developed by 4340 steel to improve the tensile strength and toughness of the steel
The changes in the mechanical properties of tensile, fatigue and hardness of a 300 M steel were evaluated. These properties were evaluated before and after the steel passed through heat treatment to form a bainitic structure and after receiving the surface treatments of plasma nitriding and laser carburizing
The applied heat treatment produced the formation of a predominant bainitic structure, leading to an increase in the ultimate strength and yield strength and a reduction in ductility as measured by elongation
Summary
The 300 M is an important steel grade developed by 4340 steel to improve the tensile strength and toughness of the steel. A heat treatment was carried out at 300 oC leading to formation of a bainitic structure This microstructure improved the yield and tensile strength [3,4]. In the last two decades there has been a lot of progress in the technology used in surface treatment processes Among these developments are the plasma nitriding method in vacuum oven and ion implantation. The changes in the mechanical properties of tensile, fatigue and hardness of a 300 M steel were evaluated These properties were evaluated before and after the steel passed through heat treatment to form a bainitic structure and after receiving the surface treatments of plasma nitriding and laser carburizing
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
