Investigation of the effect of different cooling medium on the physical and tribological properties of heat treated EN 31 and EN 8 steel

Investigation of the effect of different cooling medium on the physical and tribological properties of heat treated EN 31 and EN 8 steel

EN 8 and EN 31 steel find its major application in the field of automobile and wear resistance machine constituents. Based on wide range of applications of EN 8 and EN 31 grade steel, in the present work an experimental based investigation regarding effect of different cooling medium on the mechanic...

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Hauptverfasser: Das, Soham, Kandulna, Franken, Phukhan, Mowkhuni, Pal, Himangshu, N., Chethan K., Ghadai, Ranjan Kr
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Chromium steels
Cooling
Cooling effects
Grain structure
Heat treatment
Medium carbon steels
Oil quenching
Optical microscopes
Tensile strength
Tribology
Tube furnaces
Water quenching
Wear resistance
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creator Das, Soham
Kandulna, Franken
Phukhan, Mowkhuni
Pal, Himangshu
N., Chethan K.
Ghadai, Ranjan Kr
description EN 8 and EN 31 steel find its major application in the field of automobile and wear resistance machine constituents. Based on wide range of applications of EN 8 and EN 31 grade steel, in the present work an experimental based investigation regarding effect of different cooling medium on the mechanical and tribological properties of heat treated EN 8 and EN 31 steel is carried out at constant temperature using quartz tube furnace. The microstructural images captured from optical microscope revealed refinement of grain structure of EN 8 steel with change in cooling medium from furnace cooling to oil quenching. However, negligible microstructural changes of EN 31 steel has been observed with change in cooling medium. The hardness of EN 8 and EN 31 found to be increased by changing the cooling medium from furnace cooling to water quenching and the maximum hardness in the both the cases were observed as 241.18 BHN and 254.60 BNH respectively. The tensile strength of EN 8 and EN 31 steel evaluated through universal testing machine (UTM) found to be decreased with change in cooling medium from furnace cooling to water quenching. The maximum tensile strength of water quenched EN 8 and EN 31 was observed as 631 N/mm2 and 675 N/mm2 respectively.
doi_str_mv 10.1063/5.0024519
format Conference Proceeding
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Based on wide range of applications of EN 8 and EN 31 grade steel, in the present work an experimental based investigation regarding effect of different cooling medium on the mechanical and tribological properties of heat treated EN 8 and EN 31 steel is carried out at constant temperature using quartz tube furnace. The microstructural images captured from optical microscope revealed refinement of grain structure of EN 8 steel with change in cooling medium from furnace cooling to oil quenching. However, negligible microstructural changes of EN 31 steel has been observed with change in cooling medium. The hardness of EN 8 and EN 31 found to be increased by changing the cooling medium from furnace cooling to water quenching and the maximum hardness in the both the cases were observed as 241.18 BHN and 254.60 BNH respectively. The tensile strength of EN 8 and EN 31 steel evaluated through universal testing machine (UTM) found to be decreased with change in cooling medium from furnace cooling to water quenching. The maximum tensile strength of water quenched EN 8 and EN 31 was observed as 631 N/mm2 and 675 N/mm2 respectively.</description><identifier>ISSN: 0094-243X</identifier><identifier>EISSN: 1551-7616</identifier><identifier>DOI: 10.1063/5.0024519</identifier><identifier>CODEN: APCPCS</identifier><language>eng</language><publisher>Melville: American Institute of Physics</publisher><subject>Chromium steels ; Cooling ; Cooling effects ; Grain structure ; Heat treatment ; Medium carbon steels ; Oil quenching ; Optical microscopes ; Tensile strength ; Tribology ; Tube furnaces ; Water quenching ; Wear resistance</subject><ispartof>AIP conference proceedings, 2020, Vol.2273 (1)</ispartof><rights>Author(s)</rights><rights>2020 Author(s). 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Based on wide range of applications of EN 8 and EN 31 grade steel, in the present work an experimental based investigation regarding effect of different cooling medium on the mechanical and tribological properties of heat treated EN 8 and EN 31 steel is carried out at constant temperature using quartz tube furnace. The microstructural images captured from optical microscope revealed refinement of grain structure of EN 8 steel with change in cooling medium from furnace cooling to oil quenching. However, negligible microstructural changes of EN 31 steel has been observed with change in cooling medium. The hardness of EN 8 and EN 31 found to be increased by changing the cooling medium from furnace cooling to water quenching and the maximum hardness in the both the cases were observed as 241.18 BHN and 254.60 BNH respectively. The tensile strength of EN 8 and EN 31 steel evaluated through universal testing machine (UTM) found to be decreased with change in cooling medium from furnace cooling to water quenching. 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Based on wide range of applications of EN 8 and EN 31 grade steel, in the present work an experimental based investigation regarding effect of different cooling medium on the mechanical and tribological properties of heat treated EN 8 and EN 31 steel is carried out at constant temperature using quartz tube furnace. The microstructural images captured from optical microscope revealed refinement of grain structure of EN 8 steel with change in cooling medium from furnace cooling to oil quenching. However, negligible microstructural changes of EN 31 steel has been observed with change in cooling medium. The hardness of EN 8 and EN 31 found to be increased by changing the cooling medium from furnace cooling to water quenching and the maximum hardness in the both the cases were observed as 241.18 BHN and 254.60 BNH respectively. The tensile strength of EN 8 and EN 31 steel evaluated through universal testing machine (UTM) found to be decreased with change in cooling medium from furnace cooling to water quenching. The maximum tensile strength of water quenched EN 8 and EN 31 was observed as 631 N/mm2 and 675 N/mm2 respectively.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/5.0024519</doi><tpages>5</tpages></addata></record>
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source AIP Journals Complete
subjects Chromium steels
Cooling
Cooling effects
Grain structure
Heat treatment
Medium carbon steels
Oil quenching
Optical microscopes
Tensile strength
Tribology
Tube furnaces
Water quenching
Wear resistance
title Investigation of the effect of different cooling medium on the physical and tribological properties of heat treated EN 31 and EN 8 steel
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