Abstract Hypoid-gear cutting is a highly specified and complicated metal cutting process. The degree of freedom (DOF) of a six-axis computer numerical control (CNC) machine tools is sufficiently high to emulate the complex generating motion of conventional hypoid-gear cutting. This study presents a proposal for a constant material removal rate (CMRR) cutting process for hypoid gears with the aid of CNC flexibility. The relative spatial relationship between the cutter and the workpiece is kept strictly identical to the machine settings of the conventional hypoid generator. A hypoid gear cutting plan is developed to implement the CMRR concept by varying the feed rate and cradle roll velocity (CRV) to retain the cutting torque within a certain range during the cutting process. A CRV function can be numerically obtained to provide a material-removal polynomial (MRP) curve. The validation of the proposed CMRR process is experimentally verified on a six-axis CNC hypoid-gear generator by measuring the electrical current of the cutter spindle motor, which is proportional to the cutting torque. Machining time is reduced to 38%, and the maximum cutting torques is not exceeded.
[1]
Wei Wei,et al.
Virtual Simulation Machining on Spiral Bevel Gear with New Type Spiral Bevel Gear Milling Machine
,
2009,
2009 International Conference on Measuring Technology and Mechatronics Automation.
[2]
Sung Ho Park,et al.
Machineability in NURBS interpolator considering constant material removal rate
,
2005
.
[3]
Zhang-Hua Fong,et al.
Mathematical Model of Universal Hypoid Generator With Supplemental Kinematic Flank Correction Motions
,
2000
.
[4]
Tai Yong Wang,et al.
NC Machining Simulation of Spiral Bevel Gear Based on VERICUT
,
2011
.
[5]
Christian Brecher,et al.
Analysis and Simulation of Different Manufacturing Processes for Bevel Gear Cutting
,
2008
.
[6]
Yi-Pei Shih,et al.
Flank Correction for Spiral Bevel and Hypoid Gears on a Six-Axis CNC Hypoid Generator
,
2008
.