TY - JOUR
T1 - A hybrid process of raining co-deposition and rotary wire spark erosion in the development of a custom CBN tool for making a biochip injection mold
AU - Chen, Shun Tong
AU - Lai, Yun Cheng
N1 - Funding Information:
The authors would like to thank the National Science Council, Taiwan, ROC under Contract No. NSC 99-2622-E-003-002-CC2 and the ‘Aim for the Top University Plan’ of the National Taiwan Normal University, Taiwan, ROC for financially supporting this research. Their assistance is gratefully acknowledged.
PY - 2014/11
Y1 - 2014/11
N2 - This study examines a hybrid process combining raining co-deposition and rotary wire spark erosion with one-off grinding to generate an array of microgrooves in the fabrication of biochip injection molds on NAK80 steel. A precision composite electroforming device that can create a rain like co-deposition effect to uniformly grow a Ni-based Cubic Boron Nitride (CBN) abrasive layer onto a wheel-blank substrate is proposed and employed. Slicing and dressing are conducted by using rotary wire spark erosion to make the co-deposited wheel-blank into a thin CBN wheel-tool with a grinding edge array that alternates between coarse and detailed. A multiple microgroove array on NAK80 steel is one-off generated by using the developed CBN wheel-tool array, swiftly creating a superior surface finish for biochip injection molding. A comprehensive examination of the quantitative and qualitative properties of the CBN wheel-tool was undertaken. Experimental results have been evaluated in terms of CBN grit content, accuracy of co-shaft machining, influence of grinding depth, shape of microgroove and tool wear as well as an estimation criterion for the CBN wheel-tool array.
AB - This study examines a hybrid process combining raining co-deposition and rotary wire spark erosion with one-off grinding to generate an array of microgrooves in the fabrication of biochip injection molds on NAK80 steel. A precision composite electroforming device that can create a rain like co-deposition effect to uniformly grow a Ni-based Cubic Boron Nitride (CBN) abrasive layer onto a wheel-blank substrate is proposed and employed. Slicing and dressing are conducted by using rotary wire spark erosion to make the co-deposited wheel-blank into a thin CBN wheel-tool with a grinding edge array that alternates between coarse and detailed. A multiple microgroove array on NAK80 steel is one-off generated by using the developed CBN wheel-tool array, swiftly creating a superior surface finish for biochip injection molding. A comprehensive examination of the quantitative and qualitative properties of the CBN wheel-tool was undertaken. Experimental results have been evaluated in terms of CBN grit content, accuracy of co-shaft machining, influence of grinding depth, shape of microgroove and tool wear as well as an estimation criterion for the CBN wheel-tool array.
KW - CBN wheel-tool array
KW - One-off grinding
KW - Raining co-deposition
KW - Rotary wire spark erosion
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U2 - 10.1016/j.jmatprotec.2014.06.016
DO - 10.1016/j.jmatprotec.2014.06.016
M3 - Article
AN - SCOPUS:84904012989
SN - 0924-0136
VL - 214
SP - 2784
EP - 2795
JO - Journal of Materials Processing Technology
JF - Journal of Materials Processing Technology
IS - 11
ER -