Abstract
The aim of this paper is to investigate the effect of different burnishing strategy on a C45 steel machining. Burnishing is a well-known, cold working surface improving technology, it is usually applied for cylindrical workpiece. In the reported research a novel developed magnetic assisted ball burnishing (MABB) tool was applied which was designed for MABB machining of flat and harmonic surfaces. To increase its efficiency, different types of machining strategies were applied. After the burnishing process the machined surfaces were measured by surface roughness tester to determine the most important Rsk and Rku tribological parameters. According to the results it can be stated that all different burnishing strategies have special application areas where they can be used efficiently (e.g. sliding surface, moulding tool and after- or pre-machining for ultra-precision machining).
Highlights
Nowadays, industry is expecting high efficiency and quality of machining surfaces
The aim of this paper is to investigate the effect of different burnishing strategy on a C45 steel machining
Burnishing is a well-known, cold working surface improving technology, it is usually applied for cylindrical workpiece
Summary
Industry is expecting high efficiency and quality of machining surfaces. In the reported research high quality surfaces are produced by ball burnishing, to enhance the workpiece characteristics like wearing [3], tribology [4] or corrosion [5]. The burnishing is an applied technology for machining cylindrical workpiece in order to improve the surface [6]. In this published research the authors used a novel developed burnishing tool which was designed especially for flat and harmonic surfaces. Different types of machining strategies were applied to increase the tools’ efficiency of the burnishing process
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