The effects of cutting parameters and tool geometry on cutting forces and tool wear in milling high-density fiberboard with ceramic cutting tools

In this paper, the effects of cutting parameters and tool geometry on cutting forces and tool wear when up-milling high-density fiberboard with alumina ceramic cutting tools were investigated. Under the condition of the same feed per tooth, average chip thickness, and clearance angle, the results shown are as follows: first, the tangential forces Ft and normal forces Fr at low-speed cutting were higher than those at high-speed cutting, but increased slowly with the increase of cutting length and rake angle decrease. Second, increased cutting speed and decreased rake angle had a great effect on rake face wear. Third, the wear patterns of tool wear were rake wear and flank wear, which included pull-out of grain, flaking, and chipping. The wear mechanisms were adhesive wear and abrasive wear. Finally, at low-speed cutting, the cutting tools with bigger rake angle can be selected to reduce the energy consumption of machine tools. The tools with smaller rake angle can be used for high-speed cutting to improve tool life and productivity of processing.

[1]  The effect of cutting parameters and tool geometry on machinability of cotton-fiber reinforced polymer composites: Cutting forces, burr formation, and chip morphology , 2016 .

[2]  Songmei Yuan,et al.  Development of a cutting force prediction model based on brittle fracture for carbon fiber reinforced polymers for rotary ultrasonic drilling , 2015 .

[3]  A. Senthil Kumar,et al.  The effect of tool wear on tool life of alumina-based ceramic cutting tools while machining hardened martensitic stainless steel , 2006 .

[4]  Jun Zhao,et al.  Cutting performance and wear mechanisms of Sialon–Si3N4 graded nano-composite ceramic cutting tools , 2012 .

[5]  Tool Wear When Cutting Wood Fiber–Plastic Composite Materials , 2011 .

[6]  Branko Matović,et al.  Dense and near-net-shape fabrication of Si3N4 ceramics , 2009 .

[7]  N. Ayrilmis,et al.  Effect of panel density on dimensional stability of medium and high density fiberboards , 2007 .

[8]  A. Senthil Kumar,et al.  Wear behaviour of alumina based ceramic cutting tools on machining steels , 2006 .

[9]  Jun Zhao,et al.  Effect of cutting speed on cutting forces and wear mechanisms in high-speed face milling of Inconel 718 with Sialon ceramic tools , 2013 .

[10]  Ryogo Nakada,et al.  Cell wall structure and wood properties determined by acoustics—a selective review , 2003, Holz als Roh- und Werkstoff.

[11]  R. Gadow,et al.  Injection molding of ceramic cutting tools for wood-based materials , 2013 .

[12]  J. Kuebler,et al.  Development of silicon nitride/silicon carbide composites for wood-cutting tools , 2007 .

[13]  Tomasz Gawroński,et al.  Optimisation of CNC routing operations of wooden furniture parts , 2013 .

[14]  Mats Ekevad,et al.  Tool Wear and Machined Surface Roughness during Wood Flour/Polyethylene Composite Peripheral Up-milling using Cemented Tungsten Carbide Tools , 2014 .

[15]  Zydrunas Vagnorius,et al.  Effect of high-pressure cooling on life of SiAlON tools in machining of Inconel 718 , 2011 .

[16]  Mats Ekevad,et al.  Cutting Forces and Chip Morphology during Wood Plastic Composites Orthogonal Cutting , 2014 .

[17]  C. Aneziris,et al.  Lifetime and Wear Behavior of Near Net Shaped Si3N4/SiC Wood Cutting Tools , 2012 .

[18]  A. Krell,et al.  Al2O3 tools towards effective machining of wood-based materials , 2009 .

[19]  U. Heisel,et al.  Medium Density Fiberboard Machining and Wear Behavior of Injection‐Molded Ceramic Composite Wood Cutting Tools , 2015 .

[20]  T. Graule,et al.  Development of Ceramic Composites for Industrial Wood-Cutting Tools , 2008 .