Mechanical Property Evaluation of Stir-Squeeze Cast Al-Based Nano SiC Composites

¹ The Islamic university, Najaf, Iraq.
² Assistant Professor, Dept.of Physics, Ramco Institute of Technology, Rajapalayam
³ Uttaranchal Institute of Technology, Uttaranchal University, Dehradun - 248007, India
⁴ Associate Professor, AAA College of Engineering & Technology, Tamilnaduy. Dehradun 248007, India srisenthil2011@gmail.com
⁵ Department of Mechanical Engineering, Prince Shri Venkateshwara Padmavathy Engineering College, Chennai - 600 127, sheril.s_mech@psvpec.in

^* Corresponding author: mohammed.ha@iunajaf.edu.iq

Abstract

This study focuses on the production of stir-squeeze cast hybrid composites made of aluminium with reinforcements. Base metal AA6105 is combined with SiC/TiC. TiC is changed from 3 to 9 wt% while SiC is kept constant (3wt%).Nine specimens are created using the deviation of the stir casting parameters of Stirrer speed (SP) 350-550rpm, Stir-time (TI) 15-25 min, and Reinforcement (RE) 3-19 w.t% in accordance with L9 Taguchi's design. By applying pressure of 60 MPa during squeeze casting, reinforced composites are created. Both stir casting and squeeze cast specimens are examined for their mechanical characteristics, such as tensile strength (TS) and hardness (BHN). Based on elongation, tension, and strain, TS was assessed for both processes. The outcomes showed that SQC sample L6 obtained the maximum TS of 303.19 MPa while STC specimen only managed to reach 269.88 MPa. The STC method produced a hardness value of roughly 83.56 Hv, whereas the greatest hardness value of 94.73 Hv was obtained with SQC sample L9 (SP-550 rpm, TI-25 min & RE-6%).