Elimination of Crystallinity in fractured surface of medium carbon low alloy steel plates through process improvement

摘要

High tensile thick plates (>80mm) of medium carbon low alloy steel, when heat treated, manifested higher percentage of Crystalline area (>20 percent) in fractured surface. Such problem was not encountered in thinner plates. The genesis of higher Crystallinity in fracture was examined. It was observed that the thicker plate undergone slower rate of cooling after austenising during oil quenching and thereby quenched microstructure had upper bainites. During tempering of as quenched bainite, additional precipitation took place at the lath boundaries of bainite. This led to weakening of grain boundaries and aided easy crack propagation during fracture and resulted in formation of higher percentage of crystalline area in fractured surface. Enhancement in cooling rate of austenised plate by switching over from oil quenching to water quenching practice resulted in complete transformation of austenite into martensite and produced ductile fracture (zero Crystallinity). Plates conformed improvement in mechanical properties.