Advances in Materials Science and Engineering

Research Article

Modeling and Analysis of Mechanical Properties of Aluminium Alloy (A413) Processed through Squeeze Casting Route Using Artificial Neural Network Model and Statistical Technique

Comparison of antecedent research works.


Process	Metal/reinforcement	Input process parameters	UTS	Hardness	Reference

Pressure die casting	LM6 + 15 wt. %, size 44 m Al₂O₃	100 Mpa pressure 250 die temperature and 700 melt temperature	145 MPa	129 HBN	[9]

Squeeze casting	Al-8% Si	125 Mpa pressure 250 die temperature and 700 pouring temperature	232 Mpa	58.0 HRF	[13]

Squeeze casting	2024 Al alloy	70 Mpa pressure 250 die temperature, and750 pouring temperature	<250 Mpa	—	[14]

Squeeze casting	7075 + SiC	10% Wt SiC, 70 TON pressure, 300 die temperature, and 780 pouring temperature	210 Mpa	138 VHN	[15]

Squeeze casting	AC2A-Ni coated SiC alloy	10% Wt SiC, 100 Mpa pressure, 250 die temperature, 725 melt temperature, and 45 sec pressure duration	402–419 Mpa	141–147 BHN	[23]

Squeeze casting	LM 24	106 Mpa pressure, 150 die temperature, 45 sec pressure duration, 750 melt temperature.	258 Mpa	93 BHN	[24]

Squeeze casting	AC2A alloy	100 Mpa pressure, 200 die temperature, 725 melt temperature, hot die steel die, and 45 sec pressure duration	328 Mpa	115 BHN	[27]

Squeeze casting	LM24	105.901 Mpa pressure, 35.103 die temperature, pressure duration 15.124 sec, and 750 pouring temperature	272.258 Mpa	98.013 BHN	[29]