TANG Zhengyou
,
DING Hua
,
DU Linxiu
,
DING Hao
,
ZHANG Xin
钢铁研究学报(英文版)
In order to control retained austenite, the effect of hot deformation in the intercritical region on the microstructure of hotrolled transformationinduced plasticity (TRIP) steel was studied on a Gleeble 1500 hot simulator. Compressive strains varying in amounts from 0 to 60% were imposed in the intercritical region, and effects on the formation of polygonal ferrite, carbidefree bainite and retained austenite were determined. With increasing the hot deformation amount and the ferrite content and decreasing the carbidefree bainite content, the volume fraction of retained austenite decreases. Increased dislocation density, grain refinement of ferrite and carbon enrichment are the main factors which control retained austenite stability.
关键词:
TRIP steel;intercritical (α+γ) region;hot deformation;retained austenite
DING Hao
,
DING Hua
,
QIU Chunlin
,
TANG Zhengyou
,
ZENG Jianmin
,
YANG Ping
钢铁研究学报(英文版)
The mechanical property and forming limit experiments were carried out on a high manganese TRIP/TWIP steels with 18.8% manganese. And the forming limit diagram was obtained. This high manganese steel shows outstanding mechanical properties combining high strength and good formability. Its FLD0 is about 38%. The effects of conventional mechanical property on the FLD0 were analyzed. With the contents of Mn increasing, FLD0 increases, which indicates TWIP effect is advantageous to enhance formability. Combining with three classical models and volume invariable principle, a FLD model was established, which fits high manganese steels very well.
关键词:
high manganese TRIP/TWIP steel;mechanical properties;formability;forming limit diagram