AES analysis of fracture toughness variation with heat treatment in an 18 Ni (250 grade) maraging steel

“…In spite of the fine grain size of 3-5 m, excessive grain boundary precipitation of (Fe,Mn) 3 C has an adverse effect on toughness [11], where the effect of grain boundary precipitation is to provide a macroscopically continuous fracture path, while on the microscopic scale the fracture mode may be of mixed mode type, consisting of quasi-cleavage and dimple rupture [11]. This situation is most likely to occur if there is continuous or discontinuous precipitation along the grain boundaries, as observed in Figs.…”

Microstructural evolution in a new 770MPa hot rolled Nb–Ti microalloyed steel

“…In spite of the fine grain size of 3-5 m, excessive grain boundary precipitation of (Fe,Mn) 3 C has an adverse effect on toughness [11], where the effect of grain boundary precipitation is to provide a macroscopically continuous fracture path, while on the microscopic scale the fracture mode may be of mixed mode type, consisting of quasi-cleavage and dimple rupture [11]. This situation is most likely to occur if there is continuous or discontinuous precipitation along the grain boundaries, as observed in Figs.…”

Microstructural evolution in a new 770MPa hot rolled Nb–Ti microalloyed steel

“…Three kinds of precipitates can be observed: Nb and Ti-rich precipitates in size of $30-70 nm, Nb-rich precipitates in size of $ 10-20 nm, and cuboidal Ti-rich precipitates. These cuboidal Tirich precipitates could usually act as nuclei for NbC/Nb(C,N) precipitation [22]. Previous work [23] has suggested that these strain induced precipitations have the strong effect on the prior austenite grain refinement for high strength high toughness steels.…”

Nano-sized precipitation and properties of a low carbon niobium micro-alloyed bainitic steel

“…It can be seen that there are no carbides or carbosulfides observed in the fractures of the laserwelded T-250 maraging steel. This phenomenon is different from the research [22], because the aging temperatures in this work are lower than the austenitizing temperature at which the carbides or carbosulfides are easy to precipitate. Besides, the carbon content of T-250 maraging steel in this work is lower than that of C-250 maraging steel.…”

“…The low strength and toughness of welded joints are attributed to segregation of elements and the associated formation of titanium carbide and nitride inclusions [20,21]. Especially when the heat-treatment temperature is higher, such as above 820°C, the precipitates of carbides or carbosulfides have a significant influence on the mechanical properties of maraging steel [22,23]. So the changes of microstructures like precipitates and reverted austenite have received considerable attention.…”

Influence of aging temperature on strength and toughness of laser-welded T-250 maraging steel joint