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Abstract
Sufficient hardenability is required for thick section ductile irons which are the subject of heat treatments. Molybdenum is known as one the best hardenabilty promoter elements; however, it is not common to use it in an extensive content because it segregates severely and promotes the carbide precipitation in the intercellular regions. These carbides have a detrimental effect on the mechanical properties of casting such that keeping the Mo content to a minimum as much as possible is recommended. In this study, a 1·24 pct molybdenum ductile iron which provides sufficient hardenability for about 75 mm thick section iron was used to investigate the precipitated carbides in the intercellular regions and their annihilation by partial melting homogenisation (PMH) process to get a homogenous and carbide free structure. Heating for 9 h at 1090°C was the most successful procedure to annihilate all carbides. Carbides were then extracted and subjected to scanning electron microscopy, energy dispersive X-ray spectroscopy (EDS) and X-ray diffraction (XRD) analysis, with the results showing that chemical composition of (Fe, Mo, Si)3C is of the same structure as that of Fe3C in which some iron atoms are replaced by Mo and Si. The optimum PMH treated ductile iron was austempered at 370°C for different periods after austenitising at 900°C for 2 h. The hardness tests and microstructural study by optical, scanning electron microscopy and EDS analysis revealed a carbide free and fully homogenised austempered ductile iron.
One of the authors (N. Rahgozar) would like to thank Mr A. Shafiee for his contributions to this research.
