Journal of Recent Activities in Production

Al-Si based alloys are the most important nonferrous alloys. These alloys were enormously used in various sectors like marine, aerospace and automobile industries because of their excellent mechanical properties such as corrosion resistance, low density, and low coefficient of thermal expansion, excellent wear and good strength. These are used in areas that requires a combination of light weight and high wear resistance like engine blocks without cylinder liners, pistons etc. But all these performances of these alloys depends on the grain refinement particularly dendrite arm spacing, primary and secondary eutectic silicon particles. In this work, the results of the frequency of the vibration attached to the casting mold during solidification on the casting of microstructure of Al-18wt% Si were investigated. This involved application of vibration table which produces different ranges of frequencies of vibration with small amplitude. Therefore, the mechanical vibration is produced using vibration table and samples are casted at different frequencies and one sample was casted using traditional method using sand casting. Microscopic examination of the casted specimens with and without vibration were investigated and strength properties with and without vibration were investigated. The relation between the frequency and mechanical properties were found analytically by using linear regression analysis. Therefore, the experimental results showed improvement in mechanical properties with vibration when compared to without vibration, with vibration. Microstructure of the cast also improved when compare with, without vibration of the cast specimen.

Sushil Patel, Ashutosh Kumar, Mazhar Iqbal. Effect of Ultrasonic mold Vibration on Microstructure and Mechanical Properties of Pure Aluminum Casting During Solidification, International Journal of Scientific Research and Education, Vol. 2(7), 2014, Pages 1436-1443.

Olufemi, Ibitoye Simeon Ademola. Effects of Melt Vibration During Solidification on Mg-Al-Zn Alloy, International Journal of metallurgical Engineering, Vol. 1(3), 2012, Pages 40-43.

Rahul Kumar, Salim Ansari, Sudhansu Sekhar Mishra, Amitesh Kumar. Effect of Mold Vibration in Microstructure and Mechanical Properties of Casting During Solidification, International Journal of Scientific Research and Technology, Vol. 3(4), 2014, Pages 2278-2281.

Omura, Yuichiro Murakami, Mingjunli, Takuya Tamura, Kenji Miva, Hideki farukawa and Masayuki Harada. Effects of Mechanical Vibration on Cooling rate and Dendrite arm spacing of Aluminum –Silicon Alloy Gravity Die Castings, The Japan Institute of Metals, Vol. 50(11), 2009, Pages 2604-2608.

Obiekea, Shekarau. Effects of Pressure on the Mechanical Properties and Microstructure of Die Cast Aluminum A380 Alloy, Scientific Research Publishing, Vol. 2, 2014, Pages 248-258.

Abugh, Ikpambese Kumaden Kuncy. Microstructure and Mechanical Properties of Vibrated Castings and Weldments: A Review, Journal of Engineering Studies and Research, 2013.

Vardhaman Mudakappanavar, Nanjundaswamy. Modification of Eutectic Silicon Under the Influence of Mold Vibration During Solid During Solidification of LM6 Alloy Castings, International Journal of Scientific Research and Advanced Technology, Vol. 1(4), 2013.

Alexandre, Olegi, Taku, Rustam, Hiromi. Grain Refinement in

Aluminium alloy under Hot Equal-Channel Angular Pressing Meter, Trans, Vol. 44(4), 2003, Pages 766-774.

Goryany, Mauk. Intermetallic Compounds and Choice of Alloying Elements for the Manufacture of Thixomolded Creep resistant Magnesium Alloys, Journal of Mining and MetallurgyVol. 43(B), 2007, Pages 85-97