Study of Powder Particle Size Effect on Microstructural and Geometrical Features of Laser Claddings Using Response Surface Methodology RSM-Reference-Cited by-同舟云学术

Study of Powder Particle Size Effect on Microstructural and Geometrical Features of Laser Claddings Using Response Surface Methodology RSM

Published:2019-12-01 Issue:1 Volume:11 Page:99-116
ISSN:2066-8910
Container-title:Acta Universitatis Sapientiae, Electrical and Mechanical Engineering
language:en
Short-container-title:

Author:

Boussaha El Hadi¹,Aouici Samia²,Aouici Hamdi³,Bahloul Abida⁴

Affiliation:

1. Department of Petrochemistry and Process Engineering, Faculty of Technology , Université 20 Août 1955 Skikda , Algeria

2. Department of Mechanical Engineering, Faculty of Technology , Université 20 Août 1955 Skikda , Algeria

3. Higher National School of Technology , Rouiba , Algeria

4. L.A.I.G.M. Laboratory , Faculty of Science and Technology , University of Guelma , BP. 401, Algeria

Abstract

Abstract A continuous CO2 laser (10.6 µm wavelength) was adopted to investigate the influence of powder particle sizes on microstructural and morphological characteristics of laser claddings. To study the potential of powder in controlling the incident laser energy, different average particle sizes of Ni-base powder were deposited on an austenitic stainless steel X3CrNi18-10 substrate. The energy value necessary to melt a mass m of powder was calculated. The results indicate that this energy decreases with particle sizes. The claddings obtained with small particle sizes revealed a good morphological aspect and a low dilution of the cladding layer in the substrate, yet enough to create a very good metallurgical bond. The residual stress state was also influenced. Concerning modeling, we have elaborated residual stress model in the case of laser cladding by exploiting the response surface methodology (RSM), using a quadratic regression model. Combined effects of three laser cladding parameters on the residual stress is explored by a statistical analysis of variance (ANOVA). Results show that the residual stress is influenced principally by the power delivered by laser beam and by the scanning speed. It is also indicated that the size of powder particle is the dominant factor affecting the residual stress.

Publisher

Walter de Gruyter GmbH

Link

https://www.sciendo.com/pdf/10.2478/auseme-2019-0009

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