How to cite this paper
Das, D., Mishra, P., Chaubey, A & Singh, S. (2016). Fabrication process optimization for improved mechanical properties of Al 7075/SiCp metal matrix composites.Management Science Letters , 6(4), 297-308.
Refrences
Alaneme, K. K., & Aluko, A. O. (2012). Fracture toughness (K1C) and tensile properties of as-cast and age-hardened aluminium (6063)–silicon carbide particulate composites. Scientia Iranica, 19(4), 992-996.
Bhushan, R. K., & Kumar, S. (2011). Influence of SiC particles distribution and their weight percentage on 7075 Al alloy. Journal of materials engineering and performance, 20(2), 317-323.
Das, D.K., Mishra, P.C. & Singh, S. (2014). Properties of ceramic-reinforced aluminum matrix composites - a review. International Journal of Mechanical and Materials Engineering, 1(12), 1-16.
Das, D.K., Mishra, P.C., Singh, S. & Thakur, R.K. (2015). Tool wear in turning ceramic reinforced aluminum matrix composites-A review. Journal of Composite Materials, 49(24), 2949–2961.
Demir, A., & Altinkok, N. (2004). Effect of gas pressure infiltration on microstructure and bending strength of porous Al 2 O 3/SiC-reinforced aluminium matrix composites. Composites Science and Technology, 64(13), 2067-2074.
Deshmanya, I.B. & Purohit, G. (2012). Development of mathematical model to predict micro-hardness of Al 7075/Al2O3 composites produced by stir-casting. Journal of Engineering Science and Technology Review, 5(1), 44-50.
Kaczmar, J. W., Pietrzak, K., & W?osi?ski, W. (2000). The production and application of metal matrix composite materials. Journal of Materials Processing Technology, 106(1), 58-67.
Kalkanl?, A., & Y?lmaz, S. (2008). Synthesis and characterization of aluminum alloy 7075 reinforced with silicon carbide particulates. Materials & Design, 29(4), 775-780.
Kumar, N. R., & Dwarakadasa, E. S. (2000). Effect of matrix strength on the mechanical properties of Al–Zn–Mg/SiC P composites. Composites Part A: Applied Science and Manufacturing, 31(10), 1139-1145.
Kumar, R. and Dhiman, S. (2013). A study of sliding wear behaviors of Al-7075 alloy and Al-7075 hybrid composite by response surface methodology analysis, Materials and Design, 50, 351-359.
Lin, C.L. (2004). Use of Taguchi method and grey relational analysis to optimize turning operations in multiple performance characteristics. Materials and Manufacturing Processes, 19(2), 209-220.
Manoharan, M. & Gupta, M. (1999). Effect of silicon carbide volume fraction on the work hardening behaviour of thermo mechanically processed aluminium-based metal–matrix composites. Composites Part B Engineering, 30, 107-112.
Mishra, P., Das, D., Ukamanal, M., Routara, B., & Sahoo, A. (2015). Multi-response optimization of process parameters using Taguchi method and grey relational analysis during turning AA 7075/SiC composite in dry and spray cooling environments. International Journal of Industrial Engineering Computations, 6(4), 445-456.
Rao, R. N., Das, S., Mondal, D. P., & Dixit, G. (2010). Effect of heat treatment on the sliding wear behaviour of aluminium alloy (Al–Zn–Mg) hard particle composite. Tribology International, 43(1), 330-339.
Ravesh, S.K. & Garg, T.K. (2012). Preparation & analysis for some mechanical property of aluminium based metal matrix composite reinforced with SiC & fly ash. International Journal of Engineering Research and Applications, 2(6), 727–731.
Reddy, N. S. K., & Rao, P. V. (2006). Selection of an optimal parametric combination for achieving a better surface finish in dry milling using genetic algorithms. The International Journal of Advanced Manufacturing Technology, 28(5-6), 463-473.
Sahin, Y., & Murphy, S. (1996). Wear performance of aluminium alloy composites containing unidirectionally-oriented silicon carbide coated boron fibres. Wear, 197(1), 248-254.
Srivatsan, T. S., & Prakash, A. (1995). The quasi-static fracture behavior of an aluminum alloy metal-matrix composite. Composites science and technology, 54(3), 307-315.
Suresha, S., & Sridhara, B. K. (2012). Friction characteristics of aluminium silicon carbide graphite hybrid composites. Materials & Design, 34, 576-583.
Tzeng, C. J., Lin, Y. H., Yang, Y. K., & Jeng, M. C. (2009). Optimization of turning operations with multiple performance characteristics using the Taguchi method and Grey relational analysis. Journal of materials processing technology, 209(6), 2753-2759.
Veeresh Kumar, G.B., Rao, C.S.P. & Selvaraj, N. (2012). Mechanical and dry sliding wear behavior of Al 7075 alloy-reinforced with SiC particles. Journal of Composite Materials, 46(10), 1201-1209.
Web link 1: http://www.speedymetals.com/information/Material7.html#Heat Treating, Speedy Metals Information for 7075 Aluminum bar.
Bhushan, R. K., & Kumar, S. (2011). Influence of SiC particles distribution and their weight percentage on 7075 Al alloy. Journal of materials engineering and performance, 20(2), 317-323.
Das, D.K., Mishra, P.C. & Singh, S. (2014). Properties of ceramic-reinforced aluminum matrix composites - a review. International Journal of Mechanical and Materials Engineering, 1(12), 1-16.
Das, D.K., Mishra, P.C., Singh, S. & Thakur, R.K. (2015). Tool wear in turning ceramic reinforced aluminum matrix composites-A review. Journal of Composite Materials, 49(24), 2949–2961.
Demir, A., & Altinkok, N. (2004). Effect of gas pressure infiltration on microstructure and bending strength of porous Al 2 O 3/SiC-reinforced aluminium matrix composites. Composites Science and Technology, 64(13), 2067-2074.
Deshmanya, I.B. & Purohit, G. (2012). Development of mathematical model to predict micro-hardness of Al 7075/Al2O3 composites produced by stir-casting. Journal of Engineering Science and Technology Review, 5(1), 44-50.
Kaczmar, J. W., Pietrzak, K., & W?osi?ski, W. (2000). The production and application of metal matrix composite materials. Journal of Materials Processing Technology, 106(1), 58-67.
Kalkanl?, A., & Y?lmaz, S. (2008). Synthesis and characterization of aluminum alloy 7075 reinforced with silicon carbide particulates. Materials & Design, 29(4), 775-780.
Kumar, N. R., & Dwarakadasa, E. S. (2000). Effect of matrix strength on the mechanical properties of Al–Zn–Mg/SiC P composites. Composites Part A: Applied Science and Manufacturing, 31(10), 1139-1145.
Kumar, R. and Dhiman, S. (2013). A study of sliding wear behaviors of Al-7075 alloy and Al-7075 hybrid composite by response surface methodology analysis, Materials and Design, 50, 351-359.
Lin, C.L. (2004). Use of Taguchi method and grey relational analysis to optimize turning operations in multiple performance characteristics. Materials and Manufacturing Processes, 19(2), 209-220.
Manoharan, M. & Gupta, M. (1999). Effect of silicon carbide volume fraction on the work hardening behaviour of thermo mechanically processed aluminium-based metal–matrix composites. Composites Part B Engineering, 30, 107-112.
Mishra, P., Das, D., Ukamanal, M., Routara, B., & Sahoo, A. (2015). Multi-response optimization of process parameters using Taguchi method and grey relational analysis during turning AA 7075/SiC composite in dry and spray cooling environments. International Journal of Industrial Engineering Computations, 6(4), 445-456.
Rao, R. N., Das, S., Mondal, D. P., & Dixit, G. (2010). Effect of heat treatment on the sliding wear behaviour of aluminium alloy (Al–Zn–Mg) hard particle composite. Tribology International, 43(1), 330-339.
Ravesh, S.K. & Garg, T.K. (2012). Preparation & analysis for some mechanical property of aluminium based metal matrix composite reinforced with SiC & fly ash. International Journal of Engineering Research and Applications, 2(6), 727–731.
Reddy, N. S. K., & Rao, P. V. (2006). Selection of an optimal parametric combination for achieving a better surface finish in dry milling using genetic algorithms. The International Journal of Advanced Manufacturing Technology, 28(5-6), 463-473.
Sahin, Y., & Murphy, S. (1996). Wear performance of aluminium alloy composites containing unidirectionally-oriented silicon carbide coated boron fibres. Wear, 197(1), 248-254.
Srivatsan, T. S., & Prakash, A. (1995). The quasi-static fracture behavior of an aluminum alloy metal-matrix composite. Composites science and technology, 54(3), 307-315.
Suresha, S., & Sridhara, B. K. (2012). Friction characteristics of aluminium silicon carbide graphite hybrid composites. Materials & Design, 34, 576-583.
Tzeng, C. J., Lin, Y. H., Yang, Y. K., & Jeng, M. C. (2009). Optimization of turning operations with multiple performance characteristics using the Taguchi method and Grey relational analysis. Journal of materials processing technology, 209(6), 2753-2759.
Veeresh Kumar, G.B., Rao, C.S.P. & Selvaraj, N. (2012). Mechanical and dry sliding wear behavior of Al 7075 alloy-reinforced with SiC particles. Journal of Composite Materials, 46(10), 1201-1209.
Web link 1: http://www.speedymetals.com/information/Material7.html#Heat Treating, Speedy Metals Information for 7075 Aluminum bar.