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International Journal of Materials Technology and Innovation
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ALSSAYH, M. (2023). A study on the Microstructure of Heat Affected Zone of Austempered Ductile Iron Alloyed with 1.6% Cu and 1.6% Ni. International Journal of Materials Technology and Innovation, 3(1), 70-74. doi: 10.21608/ijmti.2022.159909.1063
MUAMMER ALI ALSSAYH. "A study on the Microstructure of Heat Affected Zone of Austempered Ductile Iron Alloyed with 1.6% Cu and 1.6% Ni". International Journal of Materials Technology and Innovation, 3, 1, 2023, 70-74. doi: 10.21608/ijmti.2022.159909.1063
ALSSAYH, M. (2023). 'A study on the Microstructure of Heat Affected Zone of Austempered Ductile Iron Alloyed with 1.6% Cu and 1.6% Ni', International Journal of Materials Technology and Innovation, 3(1), pp. 70-74. doi: 10.21608/ijmti.2022.159909.1063
ALSSAYH, M. A study on the Microstructure of Heat Affected Zone of Austempered Ductile Iron Alloyed with 1.6% Cu and 1.6% Ni. International Journal of Materials Technology and Innovation, 2023; 3(1): 70-74. doi: 10.21608/ijmti.2022.159909.1063

A study on the Microstructure of Heat Affected Zone of Austempered Ductile Iron Alloyed with 1.6% Cu and 1.6% Ni

Article 2, Volume 3, Issue 1, April 2023, Page 70-74  XML PDF (663.86 K)
Document Type: Original Article
DOI: 10.21608/ijmti.2022.159909.1063
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Author
MUAMMER ALI ALSSAYH email
High Vocational Center of Casting, Tripoli, Libya
Abstract
Heat Affected Zone (HAZ) is the area where one or more changes from the starting state to the solid state engaged in heating have occurred as a result of the welding heat cycle. In this study, we attempted to weld Austempered Ductile Iron (ADI) of the initial alloy ferritic matrix using Shielded Metal Arc Welding (SMAW) with an E6013 electrode. A total of six alloys of ADI were austempered at 360 °C for 180 minutes after being austenitized at 900 °C for 15, 30, 60, 120, 180, and 360 minutes. An optical Microscope (OM) and an image-processing technique characterized the weld joint's microstructures. The microstructure of the partial fusion zone (PFZ) has nodular graphite, pearlite, and a small fraction of martensite; the austenite transformation zone (ATZ) consists of nodular graphite plus pearlite. Only a part of the austenitic- ausferritic matrix can transform to austenite at the repeated transformation zone (RTZ). No obvious change in the microstructure at the base metal zone (BMZ).
Keywords
Austempered; Ductile Iron; Microstructure; Affected zone; ADI
Main Subjects
Welding and non-destructive testing.
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