Effects of Surface Alloying and Laser Beam Treatment on the Microstructure and Wear Behaviour of Surfaces Modified Using Submerged Metal Arc Welding

Authors

  • Regita BENDIKIENE Kaunas University of Technology
  • Edmundas PUPELIS Kaunas University of Technology
  • Lina KAVALIAUSKIENE Kaunas University of Technology

DOI:

https://doi.org/10.5755/j01.ms.22.1.7621

Keywords:

strengthening, surfacing, laser beam treatment, wear resistance

Abstract

In this study, the effects of surface alloying of cheap plain carbon steel using submerged metal arc technique and subsequent laser beam treatment on the microstructure and wear behaviour of surfaced layers were studied. This method is the cheapest one to obtain high alloyed coatings, because there is no need to apply complex technologies of powder making (metal powder is spread on the surface of base metal or inserted into the flux), it is enough to grind, granulate and blend additional materials. On the other hand, strengthening of superficial layers of alloys by thermal laser radiation is one of the applications of laser. Surface is strengthened by concentrated laser beam focused into teeny area (from section of mm till some mm). Teeny area of metal heat up rapidly and when heat is drain to the inner metal layers giving strengthening effect. Steel surface during this treatment exceeds critical temperatures, if there is a need to strengthen deeper portions of the base metal it is possible even to fuse superficial layer. The results presented in this paper are based on micro-structural and micro-chemical analyses of the surfaced and laser beam treated surfaces and are supported by analyses of the hardness, the wear resistance and resultant microstructures. Due to the usage of waste raw materials a significant improvement (~ 30 %) in wear resistance was achieved. The maximum achieved hardness of surfaced layer was 62 HRC, it can be compared with high alloyed conventional steel grade. Wear properties of overlays with additional laser beam treatment showed that weight loss of these layers was ~10 % lower compared with overlays after welding; consequently it is possible to replace high alloyed conventional steel grades forming new surfaces or restoring worn machine elements and tools.

DOI: http://dx.doi.org/10.5755/j01.ms.22.1.7621

Author Biographies

Regita BENDIKIENE, Kaunas University of Technology

Department of Manufacturing Engineering, faculty of Mechanical Engineering and Design, assoc.prof.

Edmundas PUPELIS, Kaunas University of Technology

Department of Manufacturing Engineering, faculty of Mechanical Engineering and Design, pHD

Lina KAVALIAUSKIENE, Kaunas University of Technology

Department of Manufacturing Engineering, faculty of Mechanical Engineering and Design, assoc prof.

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Published

2016-01-21

Issue

Section

METALS, ALLOYS, COATINGS