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Mathematical Modeling and Experimental Validation of Surface Roughness in Ball Burnishing Process

Rahul O. Vaishya, Vivek Sharma, Vinod Mishra, Anurag Gupta, Mandeep Dhanda, R. S. Walia, Manoj Kumar, Ankit D. Oza, Dumitru Doru Burduhos-Nergiș, Diana-Petronela Burduhos-Nergis

2022Coatings16 citationsDOIOpen Access PDF

Abstract

Burnishing is a cold working technique used as a surface enrichment to meet the desired surface properties of the workpiece. It improves the visual properties, dimensional tolerances, fatigue strength, surface roughness, and hardness of the work material by applying appropriate pressure through a complex ball burnishing tool to cause plastic deformation. In the current work, the mathematical modeling of the burnishing process was carried out to predict surface roughness by considering the process parameters such as contact radius, penetration depth, and elastic rebound. Further, a customized tungsten carbide (W.C.) insert having a hardness of 80 HRC was developed for the burnishing operation. The micro-hardness of the resulting burnished surface improved from 44 to 48 HRC. The surface quality of the tungsten carbide insert improved by up to 17.1 nm through polishing. Several experiments were performed by selecting appropriate process parameters using developed model feedback. The surface quality of the workpiece improved by up to 45 nm, which resulted in automatic improvements in fatigue strength up to seven times that of the virgin material. The results predicted from the mathematical model were in good agreement (less than 5% deviation) with the experimental results. This study helps to understand the surface formation mechanism in the burnishing process in more detail. Additionally, the achieved results show a significant improvement in the surface finish (~95%), indicating the potential of the burnishing process and how fast and cost-effective it is. The novelty of this paper lies in the improvement in surface roughness and the validation of our mathematical model results with the experimental results.

Topics & Concepts

Burnishing (metal)Materials scienceSurface roughnessTungsten carbideBall (mathematics)Residual stressSurface finishCarbideMetallurgyHardnessPolishingPenetration depthSurface integrityMechanical engineeringComposite materialEngineeringOpticsMathematicsGeometryPhysicsSurface Treatment and Residual StressLaser Material Processing TechniquesAdvanced machining processes and optimization
Mathematical Modeling and Experimental Validation of Surface Roughness in Ball Burnishing Process | Litcius