@inproceedings{scholars8227, year = {2017}, journal = {Journal of Physics: Conference Series}, publisher = {Institute of Physics Publishing}, doi = {10.1088/1742-6596/908/1/012041}, number = {1}, note = {cited By 4; Conference of International Conference on Applications and Design in Mechanical Engineering 2017, ICADME 2017 ; Conference Date: 21 August 2017 Through 22 August 2017; Conference Code:131611}, volume = {908}, title = {Investigating the effects of PDC cutters geometry on ROP using the Taguchi technique}, author = {Jamaludin, A. A. and Mehat, N. M. and Kamaruddin, S.}, issn = {17426588}, abstract = {At times, the polycrystalline diamond compact (PDC) bit's performance dropped and affects the rate of penetration (ROP). The objective of this project is to investigate the effect of PDC cutter geometry and optimize them. An intensive study in cutter geometry would further enhance the ROP performance. The relatively extended analysis was carried out and four significant geometry factors have been identified that directly improved the ROP. Cutter size, back rake angle, side rake angle and chamfer angle are the stated geometry factors. An appropriate optimization technique that effectively controls all influential geometry factors during cutters manufacturing is introduced and adopted in this project. By adopting L9 Taguchi OA, simulation experiment is conducted by using explicit dynamics finite element analysis. Through a structure Taguchi analysis, ANOVA confirms that the most significant geometry to improve ROP is cutter size (99.16 percentage contribution). The optimized cutter is expected to drill with high ROP that can reduce the rig time, which in its turn, may reduce the total drilling cost. {\^A}{\copyright} 2017 Published under licence by IOP Publishing Ltd.}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85034270170&doi=10.1088\%2f1742-6596\%2f908\%2f1\%2f012041&partnerID=40&md5=8066b4462f65f494bbe6adcc093a762e}, keywords = {Diamond drilling; Diamond drills; Geometry, Explicit dynamics; Extended analysis; Geometry factors; Manufacturing IS; Optimization techniques; Polycrystalline diamond compact bits; Rate of penetration; Taguchi technique, Finite element method} }