References
- Abdizadeh, H., R. Ebrahimifard, and M. A. Baghchesara. 2014. Investigation of microstructure and mechanical properties of nanoMgO reinforced Al composites manufactured by stir casting and powder metallurgy methods: A comparative study. Composites Part B: Engineering 56:217–21.
- Daneshpayeh, S., F. A. Ghasemi, I. Ghasemi, and M. Ayaz. 2016. Predicting of mechanical properties of PP/LLDPE/TiO 2 nano-composites by response surface methodology. Composites Part B: Engineering 84:109–20.
- Fakhri, A. 2014. Application of response surface methodology to optimize the process variables for fluoride ion removal using maghemite nanoparticles. Journal of Saudi Chemical Society 18 (4):340–47.
- Hashim, J., L. Looney, and M. S. J. Hashmi. 1999. Metal matrix composites: Production by the stir casting method. Journal of Materials Processing Technology 92:1–7.
- Hunt Jr., W. H. 2000. Comprehensive composite materials. 2nd ed. Elsevier.
- Kaur, K., R. Anant, and O. P. Pandey. 2011. Tribological behaviour of SiC particle reinforced Al–Si alloy. Tribology Letters 44 (1):41–58.
- Koli, D. K., G. Agnihotri, and R. Purohit. 2015. Advanced aluminium matrix composites: The critical need of automotive and aerospace engineering fields. Materials Today: Proceedings 2 (4):3032–41.
- Kumar, R., and S. Dhiman. 2013. A study of sliding wear behaviors of Al-7075 alloy and Al-7075 hybrid composite by response surface methodology analysis. Materials & Design 50:351–59.
- Radhika, N., and R. Raghu. 2015. Dry sliding wear behaviour of aluminium Al– Si12Cu/TiB2 metal matrix composite using response surface methodology. Tribology Letters 59 (1):1–9.
- Radhika, N., and R. Raghu. 2015. Evaluation of dry sliding wear characteristics of LM 13 Al/B4C composites. Tribology in Industry 37 (1):20–28.
- Radhika, N., and R. Subramanian. 2013. Effect of reinforcement on wear behavior of aluminium hybrid composites. Tribology-Materials, Surfaces & Interfaces 7 (1):36–41.
- Ravi, B., B. B. Naik, and J. U. Prakash. 2015. Characterization of aluminium matrix composites (AA6061/B 4 C) fabricated by stir casting technique. Materials Today: Proceedings 2 (4):2984–90.
- Sharma, P., D. Khanduja, and S. Sharma. 2015a. Dry sliding wear investigation of Al6082/Gr metal matrix composites by response surface methodology. Journal of Materials Research and Technology 5:29–36.
- Sharma, P., D. Khanduja, and S. Sharma. 2015b. Parametric study of dry sliding wear of aluminium metal matrix composites by response surface methodology. Materials Today: Proceedings 2 (4):2687–97.
- Singh, R., and G. Singh. 2015, Investigations of Al–SiC AMC prepared by vacuum moulding assisted stir casting. Journal of Manufacturing Processes 19:142–47.
- Suresh, S., and N. S. V. Moorthi. 2013. Process development in stir casting and investigation on microstructures and wear behavior of TiB2 on Al6061 MMC. Procedia Engineering 64:1183–90.
- Vettivel, S. C., N. Selvakumar, R. Narayanasamy, and N. Leema. 2013. Numerical modelling, prediction of Cu–W nano powder composite in dry sliding wear condition using response surface methodology. Materials & Design 50:977–96.