Multi‐response Optimization for Evaluating Output Responses in Rock Cutting Through Grey‐Fuzzy‐Coupled Taguchi Technique
- Organization:
- Society for Mining, Metallurgy & Exploration
- Pages:
- 16
- File Size:
- 3852 KB
- Publication Date:
- Apr 24, 2022
Abstract
The research examines the performance of uncoated and coated tungsten carbide-cobalt rock cutting bits. It aims to optimize process variables (cutting speed, depth, coating material) considering multiple output responses (cutting forces, specific energy, wear rate, material removed, angle of reaction forces). The study uses a hybrid optimization technique combining Taguchi design, grey relational analysis, and fuzzy logic. The optimal parameter combination was found to be cutting speed: 200 mm/s, cutting depth: 6 mm, and titanium aluminum silicon nitride coating.
Citation
APA: (2022) Multi‐response Optimization for Evaluating Output Responses in Rock Cutting Through Grey‐Fuzzy‐Coupled Taguchi Technique
MLA: Multi‐response Optimization for Evaluating Output Responses in Rock Cutting Through Grey‐Fuzzy‐Coupled Taguchi Technique. Society for Mining, Metallurgy & Exploration, 2022.