Box-Behnken Design Optimization of Sand Casting Process Parameters
Yıl 2020,
Cilt: 6 Sayı: 2, 25 - 36, 31.10.2020
Blessıng Ngozı Goodluck Alıemeke
,
M. Oladeinde
Öz
Sand casting is reputed for the manufacture of engine components as a result of its ease of operation. An assemblage of process parameters at optimal conditions leads to enhanced mechanical properties of automobile engine components. The Response Surface Methodology Design of experiment created an experimental layout for the sand casting process parameters and the various levels as applied in the production of engine pistons at the foundry. The Box-Behnken Design provided a matrix of 27 experiments to be conducted. Multiple linear Regression technique was employed to develop a mathematical model for the hardness of the aluminium alloy. The developed model was inputted into the evolutionary Genetic Algorithm tool box as an objective model. The optimal levels determined from the Genetic algorithm were used to carry out actual experiment in the foundry and the result was similar to the predicted hardness value of the developed model. Statistical ANOVA test conducted showed that the mathematical model was adequate with a R2 value of 81.02% and R2 (adjusted) value of 60.07%. The developed model has a p-value of 0.016 which indicates that the model was significant. The optimal values obtained for pouring temperature, vibration frequency, vibration time and runner size are 700oC, 31.52Hz, 59.998sec and 469.69mm2 respectively.
Destekleyen Kurum
Auchi Polytechnic, Nigeria
Kaynakça
- G. C. M. Patel, P. Krishna, P. R. Vundavilli, and M. B. Parappagouder, “Multi-objective Optimization of Squeeze Casting Process Using Genetic Algorithm and Particle Swarm Optimization”, Foundry Engineering, Vol. 35, No.3, pp. 172-186, 2016
- A. I. Khuri and S. Mulchopadhyay, “Response Surface Methodology”, WIREs Computational Statistics, Vol. 2, pp. 128-150, 2010.
- K. P. Praveen and M. Arum, “Multi-objective Genetic Algorithm Based Optimization of Process Parameters for Hard Part Turning”, International Journal of Research in Engineering and Technology, Vol. 3, No.8, pp. 25-30, 2015.
- M. A. Tekindal, H. Bayrak, B. Ozkaya and Y. Genc, “Box-Behnken Experimental Design in Factorial Experiment”. Turkish Journal of Field Crops, Vol. 2, No.17, pp.115-123, 2012.
- A. Agarwal, V. Kharb and V. A. Saharan, “ Process Optimization, characterization and Evaluation of Resveratrol-Phospholid Complexes Using Box-Behnken Statistical Design”, International Current Pharmaceutical Journal, Vol.3, No.7, pp. 301-308, 2014.
- L. Yue, “Design of Experiment to support Automated Assembly Planning”, Master Degree Thesis, Oregon State University, Oregon, 2016.
- M. Jayaram, “Parameter Optimization of WEDM for AA6061 Using Genetic Algorithm”, International Research Journal of Latest Trends in Engineering and Technology, Vol.2, No.3, pp. 96-104, 2015.
- T. Akhil, K. Naresh, A. Khurshid and P. A. Kumar, “Analysis on Four Stroke Single Cylinder Engine Piston by using Aluminium Alloys (AI–GHS 1300, Al-SiC-Graphite A6061 Pure Aluminium)”, International Journal of Mechanical engineering, Vol. 3, No. 1, pp. 4 – 13, 2016.
- M. T. Azhagan, B. Mohan and A. Rajadurai, “Optimization of Process Parameters to Enhance the Hardness on Squeeze Cast Aluminium Alloy AA6061”, International Journal of Engineering and Technology, Vol.6, No.1, pp. 183-190,2014.
- A. Giwa, A. A. Adeyi and S. O. Giwa, “Empirical Modelling and Optimization of PAME Reactive Distillation Process Using Minitab”, International Journal of Scientific and Engineering Research, Vol.6, No.6, pp.538-549, 2015.
- G. C. M. Patel, P.Krishna and M. Parappagouder, “Modelling of Squeeze Casting Process Using Design of Experiment and Response Surface Methodology”, International Journal of Cast Metals Research, Vol. 28, No.3, pp.167-180, 2015.
R. Kumar, R. and C. Grewal, “Improvement in Hardness of LM-6 Aluminium Green sand Castings by Taguchi Method”, Asian Journal of Engineering and Applied Technology, Vol.2, No.2, pp.11-18, 2013.
- M. Manohar, J. Joseph, T. Selvaraj and D. Sivakumar, “Application of Box-Behnken Design to Optimize the parameters for Turning Inconel 718 Using Coated Carbide Tools”, International Journal of Scientific and Engineering Research, Vol.4, No.4, pp.620-643, 2013.
- V. S. Mudakappanavar and H. M. Nanjundaswamy, “Multi-objective Optimiza-tion of Process Parameters During Solidification of Hypoeutectic Al-Si Alloy Casting Using Genetic Algorithm”, International Journal of Latest Trends in Engineering and Technology, Vol. 2, No. 4, pp.424-434, 2013.
- N. Anuar, A. F. Adnan, N. Saat, N. Aziz and R. Taha,“Optimization of Extraction Parameters by Using Response Surface Methodology, Purification and Identification of Anthocyanin Pigments in Fruit”, The Scientific World Journal, Vol.2, pp.10-21, 2013.
Yıl 2020,
Cilt: 6 Sayı: 2, 25 - 36, 31.10.2020
Blessıng Ngozı Goodluck Alıemeke
,
M. Oladeinde
Kaynakça
- G. C. M. Patel, P. Krishna, P. R. Vundavilli, and M. B. Parappagouder, “Multi-objective Optimization of Squeeze Casting Process Using Genetic Algorithm and Particle Swarm Optimization”, Foundry Engineering, Vol. 35, No.3, pp. 172-186, 2016
- A. I. Khuri and S. Mulchopadhyay, “Response Surface Methodology”, WIREs Computational Statistics, Vol. 2, pp. 128-150, 2010.
- K. P. Praveen and M. Arum, “Multi-objective Genetic Algorithm Based Optimization of Process Parameters for Hard Part Turning”, International Journal of Research in Engineering and Technology, Vol. 3, No.8, pp. 25-30, 2015.
- M. A. Tekindal, H. Bayrak, B. Ozkaya and Y. Genc, “Box-Behnken Experimental Design in Factorial Experiment”. Turkish Journal of Field Crops, Vol. 2, No.17, pp.115-123, 2012.
- A. Agarwal, V. Kharb and V. A. Saharan, “ Process Optimization, characterization and Evaluation of Resveratrol-Phospholid Complexes Using Box-Behnken Statistical Design”, International Current Pharmaceutical Journal, Vol.3, No.7, pp. 301-308, 2014.
- L. Yue, “Design of Experiment to support Automated Assembly Planning”, Master Degree Thesis, Oregon State University, Oregon, 2016.
- M. Jayaram, “Parameter Optimization of WEDM for AA6061 Using Genetic Algorithm”, International Research Journal of Latest Trends in Engineering and Technology, Vol.2, No.3, pp. 96-104, 2015.
- T. Akhil, K. Naresh, A. Khurshid and P. A. Kumar, “Analysis on Four Stroke Single Cylinder Engine Piston by using Aluminium Alloys (AI–GHS 1300, Al-SiC-Graphite A6061 Pure Aluminium)”, International Journal of Mechanical engineering, Vol. 3, No. 1, pp. 4 – 13, 2016.
- M. T. Azhagan, B. Mohan and A. Rajadurai, “Optimization of Process Parameters to Enhance the Hardness on Squeeze Cast Aluminium Alloy AA6061”, International Journal of Engineering and Technology, Vol.6, No.1, pp. 183-190,2014.
- A. Giwa, A. A. Adeyi and S. O. Giwa, “Empirical Modelling and Optimization of PAME Reactive Distillation Process Using Minitab”, International Journal of Scientific and Engineering Research, Vol.6, No.6, pp.538-549, 2015.
- G. C. M. Patel, P.Krishna and M. Parappagouder, “Modelling of Squeeze Casting Process Using Design of Experiment and Response Surface Methodology”, International Journal of Cast Metals Research, Vol. 28, No.3, pp.167-180, 2015.
R. Kumar, R. and C. Grewal, “Improvement in Hardness of LM-6 Aluminium Green sand Castings by Taguchi Method”, Asian Journal of Engineering and Applied Technology, Vol.2, No.2, pp.11-18, 2013.
- M. Manohar, J. Joseph, T. Selvaraj and D. Sivakumar, “Application of Box-Behnken Design to Optimize the parameters for Turning Inconel 718 Using Coated Carbide Tools”, International Journal of Scientific and Engineering Research, Vol.4, No.4, pp.620-643, 2013.
- V. S. Mudakappanavar and H. M. Nanjundaswamy, “Multi-objective Optimiza-tion of Process Parameters During Solidification of Hypoeutectic Al-Si Alloy Casting Using Genetic Algorithm”, International Journal of Latest Trends in Engineering and Technology, Vol. 2, No. 4, pp.424-434, 2013.
- N. Anuar, A. F. Adnan, N. Saat, N. Aziz and R. Taha,“Optimization of Extraction Parameters by Using Response Surface Methodology, Purification and Identification of Anthocyanin Pigments in Fruit”, The Scientific World Journal, Vol.2, pp.10-21, 2013.