Microstructur and microhardness of laser cladding Ni based on cold rolled steel

Microstructur and microhardness of laser cladding Ni based on cold rolled steel

A study is reported of the laser cladding of a nominal composition of Ni 5 wt% Al on cold rolled low carbon steel (0.16 wt% C), using a high power continuous CO2 laser. The severe rolled microstructure of steel was changed considerably at the heat affected zones under all specific energies. The clad...

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Bibliographic Details
Published in:The Iraqi journal for mechanical and materials engineering. Vol. 18; no. 2; pp. 201 - 213
Main Authors: Sayyid, Firas Farhan, Mustafa, Ali Mundhir, Resan, Ali Muzhir, Bash, Maryam Abd al-Azim Baqir Ali, Muhammad, Adnan Ibrahim
Format: Journal Article
Language:Arabic
English
Published: Babylon, Iraq University of Babylon, College of Engineering 04-08-2018
University of Babylon, Iraq Babil Engineering Collage
Subjects:
Cold rolled steel
Functionally graded material
Grain growth
High power laser
Recovery
Recrystallization
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Summary:A study is reported of the laser cladding of a nominal composition of Ni 5 wt% Al on cold rolled low carbon steel (0.16 wt% C), using a high power continuous CO2 laser. The severe rolled microstructure of steel was changed considerably at the heat affected zones under all specific energies. The cladded coatings showed the presence of ɣ solid solution and β (NiAlFe) phases. Sound metallurgical bonding with absence of porosity and cracks was observed between the substrate and the clad coat at specific energy higher than 80 J/mm2. The ferrite and pearlite microstructure of the substrate was changed to martensite at the region adjacent to the clad interface. It followed by large grains of austenite/ferrite and pearlite (grain growth zone), fine grains of austenite/ferrite and pearlite (recrystallization zone) and very small zone of relatively small change of cold structure (recovery zone). The last zone was confirmed by micro hardness as a recovery zone. This investigation confirms clearly the possibility of formation different structures of grain growth, recrystallization and recovery at the laser heat affected cold rolled low carbon steel. The observed results suggest the developing of a new technique to obtain tentative functionally graded material.
ISSN:2076-1819
1819-2076
2313-3783
DOI:10.32852/iqjfmme.Vol18.Iss2.85