Add to ORKGAbstract Refining grain size is known to enhance mechanical properties also in austenitic stainless steels. To better understand the background of these properties, various reversion-treated structures were created in AISI 301LN (18Cr-7Ni-0.15N) steel and the microstructural features affecting flow behaviour and strength under monotonic and cyclic straining were investigated. Fully and partially reversed microstructures were produced using prior cold rolling thickness reductions in the range of 32–63% and both resistant and induction heating. Some selected reversed structures were also strengthening rolled to 20% reduction. The resultant microstructures were characterised using different research equipment and methods and their mechanical ...
Low cycle fatigue (LCF) behaviour of metastable austenitic 301LN stainless steel with different grai...
Abstract The effect of austenite pancaking in the non-recrystallisation regime on microstructure an...
This study unravels the microstructural mechanisms controlling the mechanical behaviour and austenit...
Abstract In this thesis, the influence of reversion and recrystallization annealing on microstructu...
Austenitic stainless steels are known to strain harden strongly as a result to cold work. Strain ha...
Austenitic stainless steels (SS) are widely used as structural materials in light water nuclear reac...
AISI 301LN is a metastable austenitic stainless steel that offers an excellent combination of high ...
Reversion treatments are a way to improve the mechanical response of metastable austenitic stainles...
AbstractCyclic strain behaviour of metastable austenitic 301LN steel with different grain sizes – co...
Abstract Heavy cold rolling is generally required for efficient grain size refinement in the marten...
textThis dissertation is a part of a collaborative work between the University of Texas, Austin-Texa...
Heavy cold rolling is generally required for efficient grain size refinement in the martensitic reve...
The tensile behaviour of austenitic stainless steel after cryorolling and subsequent annealing has b...
The annealing behavior of cryogenically-rolled type 321 metastable austenitic steel was established....
Austenitic stainless steels are extensively used in various applications requiring good corrosion re...
Low cycle fatigue (LCF) behaviour of metastable austenitic 301LN stainless steel with different grai...
Abstract The effect of austenite pancaking in the non-recrystallisation regime on microstructure an...
This study unravels the microstructural mechanisms controlling the mechanical behaviour and austenit...
Abstract In this thesis, the influence of reversion and recrystallization annealing on microstructu...
Austenitic stainless steels are known to strain harden strongly as a result to cold work. Strain ha...
Austenitic stainless steels (SS) are widely used as structural materials in light water nuclear reac...
AISI 301LN is a metastable austenitic stainless steel that offers an excellent combination of high ...
Reversion treatments are a way to improve the mechanical response of metastable austenitic stainles...
AbstractCyclic strain behaviour of metastable austenitic 301LN steel with different grain sizes – co...
Abstract Heavy cold rolling is generally required for efficient grain size refinement in the marten...
textThis dissertation is a part of a collaborative work between the University of Texas, Austin-Texa...
Heavy cold rolling is generally required for efficient grain size refinement in the martensitic reve...
The tensile behaviour of austenitic stainless steel after cryorolling and subsequent annealing has b...
The annealing behavior of cryogenically-rolled type 321 metastable austenitic steel was established....
Austenitic stainless steels are extensively used in various applications requiring good corrosion re...
Low cycle fatigue (LCF) behaviour of metastable austenitic 301LN stainless steel with different grai...
Abstract The effect of austenite pancaking in the non-recrystallisation regime on microstructure an...
This study unravels the microstructural mechanisms controlling the mechanical behaviour and austenit...