Abstract
The main aim of the research work is to examine the fracture toughness of the dual phase steels prepared using the intermediate quenching method. The ferrite-martensite dual phase (DP) steel is produced using low carbon micro alloyed steel by the heat treatment and intercritical quenching technique using various intercritical temperatures such as 740,760,780,800 and 820oC. The samples of the produced dual phase steel are analyzed for their microstructure using optical microscope. The fracture toughness investigations for the dual phase steel have been carried out using ASTM standard testing procedure. From the results it is observed that the fine distribution and equal volume fraction of ferrite and martensite phases at 780oC. The effect of which, the A780 steel has demonstrated excellent fracture toughness which is the result of intermediate quenching technique. The fractography analysis it is clear that the ductile initiated brittle fracture is occurred which is due to the increased hard martensite phase and the increment in the stress accumulation at the ferrite which also leads to the higher elongation.
Highlights
The steel grades of properties such as high strength, strong, safe, economic and reliable are used as the steel structures for automobile, aerospace components
The fracture load and the calculated value of the fracture toughness of all the specimens of dual phase steel for the different intermediate quenching (IQ) temperatures have been listed in the Tab. 1
The increment and decrement in the fracture toughness of the dual phase steel is mainly due to the volume fraction of the ferrite-martensite phase formed during the processing
Summary
The steel grades of properties such as high strength, strong, safe, economic and reliable are used as the steel structures for automobile, aerospace components. Martensite; Ferrite; Intercritical temperature; Volume fraction; Dual phase steel; Fracture toughness. The low carbon micro alloyed steels were heated to the austenization temperature followed by the rapid quenching where it forms the martensite phase.
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