Experimental Stress Analysis of Reinforced Si Particles in Pure Mg Plates using ANSYS Singh Kamal Kant1,*, Sharma Satpal2, Singh Sakshi3 1Assistant Professor, Ram-Eesh Institute of Engineering and Technology, Greater Noida, Uttar Pradesh, India 2Assistant Professor, Gautam Buddha University, Greater Noida, Uttar Pradesh, India 3PhD Scholar, Indira Gandhi Delhi Technical University for Women, Kashmere Gate, Delhi, India *Corresponding author email id: kamalkantsingh.kc@gmail.com
Online published on 4 June, 2018. Abstract Pure magnesium plates are generally used in automotive applications as metal matrix composites reinforced with various reinforcements. They are applied in medium structural components like beam sand columns for physical strengthening. Preceding researchers had proved that finite element method can easily calculate such metal matrix plates under different loads and boundary conditions. ANSYS is the one of the most common Finite element method based software, which can calculate engineering problems relatively. In this research work, stresses of four-layered reinforced silicon-based metal matrix magnesium plates were compared by changing orientation angles of matrix plate in ANSYS software. The plates are fixed on all the four sides and the uniform load is applied transversally. The nature of these plates under the load-stress condition is evaluated under material linearity ambiance. In the anti symmetric angular arrangement [0°,-60°, 60°, 0°], pattern had to affect higher stresses than [0°,-30°, 30°, 0°]. Top Keywords Magnesium-based, Metal matrix plates, ANSYS software, Silicon reinforcement, Stress analysis, Finite element method, Anti symmetric pattern. Top |