Abdolkarim Niazi scite author profile

Aluminum 6061 is a common alloy which is widely used in aerospace and yacht construction industry. Generally machining of aluminum alloys inherently generates high chip sticking on tool face and changes the tool edge geometry, which not only reduces tool life but also impairs the product surface quality. This study investigated the tool life and tool wear mechanisms besides evaluating surface roughness in various cutting conditions to attain finest possible surface with minimum tool wear. Turning experiments performed under dry orthogonal cutting of Al6061 using carbide CVD tri-phase coated inserts with constant depth of cut, various cutting speeds and feed rates. Insert’s flank and rake faces analyzed to assess wear mechanisms. Additionally Scanning electron microscope (SEM) employed to clarify different types of wear. Surface integrity and effect of built up edge in deviating surface roughness were studied in each cutting condition. Additionally results of experiments demonstrated that built up edge took over cutting edge and with sacrificing surface roughness, tool life increased by decreasing pace of abrasive wear propagation on flank face. According to these experiments the main reasons of flank wear were abrasive and adhesion of aluminum on tool face.

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Experimental Analysis of Wear Mechanism and Tool Life in Dry Drilling of Al2024

Davoudinejad

Ashrafi

Hamzah

et al. 2012

AMR

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Aluminum alloy is widely used in industry and various researches has been done on machiability of this material mainly due to its low weight and other superior properties. Dry machining is still interesting topic to reduce the cost of manufacturing and environmental contaminations. In present study dry machining of Al 2024 investigated on tool life, tool wear mechanisms, hole quality, thrust force and torque. Different types of high speed steel (HSS) tools utilized at constant feed rate of 0.04 mm/rev and cutting speeds within the range of 28 and 94 m/min. Experimental results revealed that HSCo drills, performed better than HSS drills in terms of tool life and hole quality. The main wear mechanisms which analyzed by scanning electron microscope found abrasive and adhesion wear on flank face, besides, BUE observed at chisel and cutting edges. However tool wear and BUE formation found more significant at high cutting speed. In terms of thrust force, two facet HSCo tools, recorded higher thrust force than four facet HSS drills.

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Investigations into Effect of Tool Wear on Surface Integrity in Dry Turning of Al6061

Ashrafi

Davoudinejad

Niazi

2012

AMR

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Aluminum alloys offer number of various interesting mechanical and thermal properties which classified them among most commonly used lightweight metallic materials. Generally machining of aluminum alloys inherently generates high chip sticking on tool face and changes the tool edge geometry, which not only reduces tool life but also impairs the product surface quality. This study investigated tool wear mechanism, surface integrity, and tool life in different cutting conditions to achieve finest surface roughness with considering longest tool life. Turning experiments performed under dry orthogonal cutting of Al6061 using carbide CVD tri-phase coated inserts. Constant depth of cut with different cutting speeds and feed rates utilized in experiments. Insert’s rake and flank faces investigated to figure out wear mechanisms. In addition scanning electron microscope (SEM) employed to evaluate various wear types. Surface integrity and effect of built up edge in surface roughness deviations studied in each cutting condition. Additionally, results of experiments demonstrated that built up edge covered tool cutting edge and increased tool life by decreasing pace of the abrasive wear propagation on the flank face with sacrificing surface roughness. All in all the main reason for flank wear was abrasive and adhesion of aluminum on tool faces.

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