INFLUENCE OF SODIUM CHLORIDE MODIFIER ON THE PROPERTIES OF ALUMINIUM-SILICON ALLOY

Abstract

Listen

Translate article

Solidification of aluminium-silicon alloy produces coarse eutectic microstructures consisting of large and brittle plates in aluminium matrix. This result lowers the mechanical properties of alloy. Chemical modification was applied to improve the properties of aluminum-silicon (Al-Si) alloy. The Aluminium-silicon alloy was developed and modified with sodium chloride salt using sand casting technique. The amount of salt used was calculated stoichiometrically. The percentage variation of sodium content in sodium chloride was 0.005%, 0.01%, 0.015%. Aluminium ingot, aluminum-silicon ligand and magnesium metal were melted in the furnace at varying temperatures (750oC, 800oC and 850oC) to form the hypoeutectic alloy conforming to AA354 alloy. The modified salt was introduced into the molten metal, mixed and then cast into molds. The cast samples were subjected to Characterization such as microstructural analysis, X-Ray Defraction and thermal conductivity analysis and mechanical properties such as tensile, impact and hardness tests. The X-Ray Diffractometer analysis was conducted on the cast sample to determine the grain refinement and the crystallinity of the modified alloy. The microstructure revealed the brake down. The tensile strength of the unmodified alloy was 80.54MPa. The addition of sodium chloride was discovered to have increased the tensile strength to 189.51MPa. The hardness value increased from 60.87HRB for the unmodified to 82.1HRB for sodium chloride modified alloy. The impact strength of the alloy decreased from 2.03J for the unmodified alloy to1.68J for the modified alloy. The modifying salt (NaCl) changed the eutectic structure of the aluminium-silicon alloy. The changes in the structure were reflected in the outcome of the various tests conducted on the developed samples. The modified aluminium-silicon alloy was used successfully for the casting of an automobile brake disc.