Author(s)

Baha Tarchoun¹, Abderrazak El Ouafi^1*, Ahmed Chebak^1,2

¹Department of Engineering, University of Quebec at Rimouski, Rimouski, Canada.
²Innovation Lab for Operations, Mohammed VI Polytechnic University, Benguerir, Morocco.

Laser surface transformation hardening becomes one of the most modern processes used to improve fatigue and wear properties of steel surfaces. In this process, the material properties and the heating parameters are the factors that present the most significant effects on the hardened surface attributes. The control of these factors using predictive modeling approaches to achieve desired surface properties leads to conclusive results. However, when the dimensions of the surface to be treated are larger than the cross-section of the laser beam, various laser-scanning patterns are involved. This paper presents an experimental investigation of laser surface hardening of AISI 4340 steel using different laser scanning patterns. This investigation is based on a structured experimental design using the Taguchi method and improved statistical analysis tools. Experiments are carried out using a 3 kW Nd: YAG laser source in order to evaluate the effects of the heating parameters and patterns design parameters on the physical and geometrical characteristics of the hardened surface. Laser power, scanning speed and scanning patterns (linear, sinusoidal, triangular and trochoid) are the factors used to evaluate the hardened depth and the hardened width variations and to identify the possible relationship between these factors and the hardened zone attributes. Various statistical tools such as ANOVA, correlations analysis and response surfaces are applied in order to examine the effects of the experimental factors on the hardened surface characteristics. The results reveal that the scanning patterns do not modify the nature of the laser parameters’ effects on the hardened depth and the hardened width. But they can accentuate or reduce these effects depending on the type of the considered pattern. The results show also that the sinusoidal and the triangular patterns are relevant when a maximum hardened width with an acceptable hardened depth is desired.

Laser Surface Hardening Process, Experimental Investigation, Laser Scanning Patterns, AISI 4340 Steel, Hardness Profile, Hardened Depth, Hardened Width, Design of Experiment, Analysis of Variance

Tarchoun, B. , Ouafi, A. and Chebak, A. (2020) Experimental Investigation of Laser Surface Hardening of AISI 4340 Steel Using Different Laser Scanning Patterns. Journal of Minerals and Materials Characterization and Engineering, 8, 9-26. doi: 10.4236/jmmce.2020.82002.