摘要
The influence of different solution temperature on microstructure and impact toughness of cobalt-free maraging steel 00Ni14Cr3Mo3Ti was investigated by SEM and X-Ray diffractometer.The experimental results showed that with the solution temperature variation, the martensite morphology has not changed, is still lath martensite.Undissolved Laves phase hindered the dislocation movement after 750 ℃ solution heat treatment, which result in a very low impact absorbed energy, the impact fracture has no obvious plastic deformation, with bad toughness.With the solution temperature increased, the undissolved phase gradually dissolved, the impact absorbed energy increased gradually.All the Laves phase dissolved when reach to 900 ℃, the impact absorbed energy reaches the maximum, is 61 J.Fracture morphology change from brittle fracture into toughness transgranular fracture with deep dimple. When solution temperature is above 900 ℃, with the solution temperature further increase, austenite grain size increases significantly.Average grain diameter of austenite is about 70 μm after 1050 ℃ solution treatment, the density of precipitates on the grain boundary of maraging steel is increase substantially, deformation compatibility deteriorate, which result in the impact absorbed energy decreased significantly.Fracture type becomes transgranular and quasi-cleavage mixed fracture with the characteristics of the river patterns from ductile transgranular fracture.
The influence of different solution temperature on microstructure and impact toughness of cobalt-free maraging steel 00Ni14Cr3Mo3Ti was investigated by SEM and X-Ray diffractometer.The experimental results showed that with the solution temperature variation, the martensite morphology has not changed, is still lath martensite.Undissolved Laves phase hindered the dislocation movement after 750 ℃ solution heat treatment, which result in a very low impact absorbed energy, the impact fracture has no obvious plastic deformation, with bad toughness.With the solution temperature increased, the undissolved phase gradually dissolved, the impact absorbed energy increased gradually.All the Laves phase dissolved when reach to 900 ℃, the impact absorbed energy reaches the maximum, is 61 J.Fracture morphology change from brittle fracture into toughness transgranular fracture with deep dimple. When solution temperature is above 900 ℃, with the solution temperature further increase, austenite grain size increases significantly.Average grain diameter of austenite is about 70 μm after 1050 ℃ solution treatment, the density of precipitates on the grain boundary of maraging steel is increase substantially, deformation compatibility deteriorate, which result in the impact absorbed energy decreased significantly.Fracture type becomes transgranular and quasi-cleavage mixed fracture with the characteristics of the river patterns from ductile transgranular fracture.
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2011年第S3期114-117,共4页
Rare Metal Materials and Engineering
基金
National Nature Science Foundation of China (50735005)
Youth Foundation of Shanxi Province (2008021030)
Natural Science Foundation of Shanxi Province (2009011028-1)
