INFLUENCE OF AGEING BEHAVIOR ON HARDNESS OF SQUEEZE CAST AL 8011 WITH 2.5%TIC COMPOSITES USING ARTIFICIAL NEURAL NETWORK
Keywords:
Precipitation hardening, squeeze casting, Aritificial neural networkAbstract
In this work, the effect of precipitation hardening on hardness of Al 8011 reinforced with 2.5 % TiC composites have been investigated. The composites are fabricated by employing squeeze cast process; it is the combination of both casting and forging processes that can be done under high pressure. Since it results in negligible porosity, refined grain structure and high quality cast composites. The precipitation hardening process was carried out within a temperature range of 130 - 210°C for the time interval of 1-8 hours. Hardness was recorded closely to monitor the age of hardening effect and ANN is employed ascertain the optimum hardness using ANN as a tool
Downloads
References
Dinesh Kumar koli Geeta Agnihotri and Rajesh purohit (2013), “Properties and characterization of Al –Al2O3 composites processed by casting and powder metallurgy routes –Review”, International journal of latest trends and powder metallurgy and Technology IJLTET, Vol.11(4), 486-496.
Sathishkumar T Subramanian R Shalini S and Angelo P C (2016), “Age hardening behavior of Al-Si-Mg alloy matrix/Zircon and alumina hybrid composite”, journal of scientific and industrial Research, Vol.75,89-94.
Senthil P and Amirthagadeswaran K S (2012), “Optimization of squeeze cast parameters of nano-symmetrical AC2A aluminium alloy castings through Taguchi method”, Journal of Material science and technology, Vol.26 (4), 1141-1147.
Vembu V and Ganesan G (2015), “Heat treatment optimization of tensile properties of 8011 Al /15%SiCp metal matrix composites using response surface methodology”, Defense Technology, Vol. 11, 390-395.
Adeyemi dayo Isadare Bolaji Aremo Mosobalaje Oyebamji Adeoye Oluyemi John Olawale and Moshood Dehinde shittu (2013), “Effect of heat treatment on some Mechanical properties of 7075 Aluminum alloy”, Materials Research, Vol. 16(1), 190-194.
Ridvan Yamanoglu Erdem Karakulak Adalet Zeren and Muzaffer Zeren (2013), “Effect of heat treatment on the tribological properties of Al-Cu-Mg/nano SiC composites”, Materials and Design, Vol. 49, 820-825.
Esezobor D E and Adeosun S O (2006), “Improvement on the strength of 6063 Aluminum by means of solution Heat treatment”, Material science and Technology (MS&T), 645-655.
Aondona P Ihom Nyior and Bem G Emmanual E Anbhu Joy N and Ogbodo (2012), “The Effect of Ageing Time on some Mechanical properties of Aluminium /0.5%/Glass reinforced particulate composite”, Journal of Minerals and Materials characterization and Engineering, Vol.11, 919-923.
Gopalakannan S and Senthilvelan T (2015), “Synthesis and characterization of Al 7075 reinforced with SiC and B4C nano-particles fabricated by ultrasonic cavitation method”, Journal of Scientific and Industrial Research, Vol.74, 281-285.
Baskaran G Daniel Lawrence I Ramesh Kannan C and Stalin B Characterization of aluminium based Metal matrix composite reinforced with TiC and TiO2”, International journal of Applied engineering Research, Vol. 10 (51), 682-687.
Venkatesan S and Anthony Xavior M (2015), “Comparative analysis of metal matrix composites reinforced with TiC and TiB2 using stir casting process”, International journal of scientific Research and Engineering studies (IJSRES), Vol.2 (4), 61-65.