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INFLUENCES OF P AND Sr ON MICROSTRUCTURE AND ITS EFFECTS ON MACHINABILITY AND MECHANICAL PROPERTIES OF HYPEREUTECTIC Al-20%Si

D. T. Arunkumar (), K. G. Basavakumar (), S. Sujai and S. Senthur Prabu ()
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D. T. Arunkumar: Department of Mechanical Engineering, Faculty of Engineering and Technology, Jain (Deemed-to-be University), Bengaluru 562112, Karnataka, India
K. G. Basavakumar: ��Department of Mechanical Engineering, C Byregowda Institute of Technology, Kolar 563101, Karnataka, India
S. Sujai: Department of Mechanical Engineering, Faculty of Engineering and Technology, Jain (Deemed-to-be University), Bengaluru 562112, Karnataka, India
S. Senthur Prabu: ��School of Mechanical Engineering, VIT University, Vellore 632014, Tamil Nadu, India

Surface Review and Letters (SRL), 2023, vol. 30, issue 04, 1-11

Abstract: Hypereutectic Al-Si alloys are widely utilized in the automotive industry due to their high strength-to-weight ratio, minimal thermal expansion, and superior castability. The downside of hypereutectic Al-Si alloys is the formation of coarse primary silicon particles. The primary Si phases were controlled by the growth-hindering agents, phosphorus (refiner), and strontium (modifier) by using a conventional stir casting technique at room temperature. The microstructural changes were observed through an optical microscope and SEM analysis. The additions of 0.08% P have ensured the formation of the uniformly distributed fine-grained particles in the alloy. The primary silicon particle size was reduced from 220μm to 150μm as compared to the untreated alloy. The tensile and yield properties of the treated alloy were increased by 12.7% when compared to the untreated alloy with a hardness of 131 BHN. The treated alloy imparted better impact toughness, ensuring a ductile mode of failure through the fractography studies. The influence of the microstructure on the machinability of the alloy was investigated in a dry environment with uncoated and coated inserts (code: CCGT 09T304 FL K10) by varying the process parameters, i.e. speed, feed rate, and depth of cut (DoC). Modification of the primary and eutectic Si phases of an Al-20Si hypereutectic alloy increases machinability with coated inserts as well as its mechanical properties.

Keywords: Hypereutectic Al-Si alloys; phosphorus; strontium; microstructure; tensile; machining (search for similar items in EconPapers)
Date: 2023
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DOI: 10.1142/S0218625X23500233

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