Abstract
The burr on micro part has harmful effect on the dimensional accuracy and service performance. The original control of exit burr formation during micro milling is desirable and advisable. In this paper, the formation mechanism of exit burr was studied based on the varying cutting direction during micro milling. Three exit burr control strategies were concluded, the material properties embrittlement, the support stiffness increasing and machining parameter optimizing operations. Then, micro milling experiments were carried out to investigate the exit burr morphology and size. It was found that the exit burr formation was attributed to the change of material flowing path at the exit surface, which was caused by the negative shear deformation zone that was induced by the discontinuous shape features. Different exit burr morphologies were classified; the triangle exit burr type was caused by the varying exit burr growing direction along the exit surface. The optimal machining parameters in micro milling to obtain a small exit burr were suggested.
Highlights
The increasing requirement for micro equipment greatly promoted the innovation and development of micro machining technology [1,2]
It is found that the exit burr shapes can be classified into three different types, the to orthogonal cutting, the exit burr morphology at the exit surface is very uneven in micro triangle shape, the short and long overhang shape type
This paper presented an investigation on the exit burr formation mechanism during micro milling; the effect of machining parameters on exit burr morphology and width was studied
Summary
The increasing requirement for micro equipment greatly promoted the innovation and development of micro machining technology [1,2]. Micro milling is one of the commonly used operations to produce micro parts with small size and complex shape characters. The cutting thickness is comparable with tool cutting edge radius and grain size of workpiece material during micro milling process. Some new issues have appeared in micro milling, which include the size effect, the minimum uncut chip thickness and ploughing effect [5,6]. These issues usually result in bad surface quality and serious burr during micro milling. The small burr that formed on micro milled parts has a harmful influence on the dimensional accuracy and service performance [7,8]
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