Two ingots weighing 400 g and 5 kg with nominal compositions of Fe–8Mn–4Al–2Si–0.5C–0.07V–0.05Sn were produced to investigate the effect of processing variables on microstructure development. The larger casting has a cooling rate more representative of commercial production and provides an understanding of the potential challenges arising from casting-related segregation during efforts to scale up medium Mn steels, while the smaller casting has a high cooling rate and different segregation pattern. Sections from both ingots were homogenized at 1250 ∘C for various times to study the degree of chemical homogeneity and δ-ferrite dissolution. Within 2 hours, the Mn segregation range (max–min) decreased from 8.0 to 1.7 wt pct in the 400 g ingot ...
Softening annealing (SA) is often required for producing medium-Mn steels (MMS) as it lowers hardnes...
The need for reducing the carbon footprint of automotive vehicles has driven companies to develop hi...
We studied the effects of Mn additions from 0 to 30 wt. on microstructure, mechanical and physical p...
Two ingots weighing 400 g and 5 kg with nominal compositions of Fe-8Mn-4Al-2Si-0.5C-0.07V-0.05Sn wer...
Medium Mn steels containing 4-12 wt\% Mn are a relatively new class of steels which has gained signi...
The influence of Mn segregation that occurs during casting on recrystallization kinetics has been ex...
High-manganese steels containing 10 to 30% Mn exhibit high strength and exceptional plasticity due t...
Advanced High Strength Steels with a high manganese content offer an exceptional balance of strength...
A novel medium manganese steel with composition Fe–8.3Mn–3.8Al–1.8Si–0.5C–0.06V–0.05Sn was developed...
A novel medium Mn steel of composition Fe-12Mn-4.8Al-2Si-0.32C-0.3V was manufactured with 1.09 GPa y...
A balance between strength and ductility has been one of the most important considerations in the st...
DoctorWith increasing demands of advanced mechanical properties in structural materials, austenitic ...
The present work analyzes the application of quenching and partitioning processing to medium Mn stee...
Hadfield steel invented in 1882 has an enormous capacity for work-hardening upon impact and it is co...
DoctorRecently, interest in global warming, emission gas and fine dust has been heightened, and stee...
Softening annealing (SA) is often required for producing medium-Mn steels (MMS) as it lowers hardnes...
The need for reducing the carbon footprint of automotive vehicles has driven companies to develop hi...
We studied the effects of Mn additions from 0 to 30 wt. on microstructure, mechanical and physical p...
Two ingots weighing 400 g and 5 kg with nominal compositions of Fe-8Mn-4Al-2Si-0.5C-0.07V-0.05Sn wer...
Medium Mn steels containing 4-12 wt\% Mn are a relatively new class of steels which has gained signi...
The influence of Mn segregation that occurs during casting on recrystallization kinetics has been ex...
High-manganese steels containing 10 to 30% Mn exhibit high strength and exceptional plasticity due t...
Advanced High Strength Steels with a high manganese content offer an exceptional balance of strength...
A novel medium manganese steel with composition Fe–8.3Mn–3.8Al–1.8Si–0.5C–0.06V–0.05Sn was developed...
A novel medium Mn steel of composition Fe-12Mn-4.8Al-2Si-0.32C-0.3V was manufactured with 1.09 GPa y...
A balance between strength and ductility has been one of the most important considerations in the st...
DoctorWith increasing demands of advanced mechanical properties in structural materials, austenitic ...
The present work analyzes the application of quenching and partitioning processing to medium Mn stee...
Hadfield steel invented in 1882 has an enormous capacity for work-hardening upon impact and it is co...
DoctorRecently, interest in global warming, emission gas and fine dust has been heightened, and stee...
Softening annealing (SA) is often required for producing medium-Mn steels (MMS) as it lowers hardnes...
The need for reducing the carbon footprint of automotive vehicles has driven companies to develop hi...
We studied the effects of Mn additions from 0 to 30 wt. on microstructure, mechanical and physical p...