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Karnik, S. R.
- Multiple Performance Optimization in Drilling Using Taguchi Method and Utility Concept
Abstract Views :158 |
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Authors
Affiliations
1 Department of Industrial & Production Engineering, B V B College of Engineering & Technology, Hubli-580 031, IN
2 Department of Electrical & Electronics, B V B College of Engineering & Technology, Hubli - 580 031, IN
3 Department of Industrial & Production Engineering, UBDT College of Engineering, Davangere - 577 004, IN
1 Department of Industrial & Production Engineering, B V B College of Engineering & Technology, Hubli-580 031, IN
2 Department of Electrical & Electronics, B V B College of Engineering & Technology, Hubli - 580 031, IN
3 Department of Industrial & Production Engineering, UBDT College of Engineering, Davangere - 577 004, IN
Source
Manufacturing Technology Today, Vol 5, No 9 (2006), Pagination: 23-20Abstract
Formation of exit burr on part edges during drilling has several undesirable features on product quality and hence requires significant attention in the manufacturing research. Simultaneous minimization of burr height and burr thickness in drilling ofAISI 316L stainless steel v^ork pieces is formulated as a multi-response optimization. The approach of Taguchi design for multi-response optimization problem is based on utility concept, which employs weighting factors to signal to noise ratio of individual responses to obtain multi-response signal to noise ratio. The optimal drilling process parameters such as cutting speed, feed, point angle and lip clearance angle are determined using Analysis of Means. The Analysis of Variance indicates the contributions of various parameters in controlling the burr size. The experimental results confirmed the validity of the proposed methodology for minimization of burr size during drilling.- Optimization of Burr Geometry in Drilling Process Using Genetic Algorithm
Abstract Views :182 |
PDF Views:0
Authors
Affiliations
1 Department of Industrial & Production Engineering, B V B College of Engineering & Technology, Hubli 580 031, IN
2 Department of Electrical & Electronics, B V B College of Engineering & Technology, Hubli 580 031, IN
3 Department of Mechanical Engineering, G M Institute of Technology, Davangere 577 006, IN
4 Department of Industrial & Production, UBDT College of Engineering, Davangere 577 004, IN
1 Department of Industrial & Production Engineering, B V B College of Engineering & Technology, Hubli 580 031, IN
2 Department of Electrical & Electronics, B V B College of Engineering & Technology, Hubli 580 031, IN
3 Department of Mechanical Engineering, G M Institute of Technology, Davangere 577 006, IN
4 Department of Industrial & Production, UBDT College of Engineering, Davangere 577 004, IN