Add to ORKGA 300 grade maraging steel was chosen as a vehicle by which to understand the inverse relationship between strength and toughness in high strength alloys such as the 18 Ni maraging steels. The 18 Ni, 300 grade maraging material was a commercial grade consumable-electrode, vacuum arc remelted heat obtained in the form of forged and annealed plate. The matrix contained a population of second-phase impurity inclusions which was a product of the casting and hot working processes. These inclusions did not change with subsequent precipitation hardening. Changes in microstructure resulting in strength increases were brought about by variations in aging temperature and time. Maximum strength was attained in the 300 grade maraging steel by aging at ...
requirements for the degree of Doctor of Philosophy. Pmooth bar tensile tests, plane strain tensile ...
The concept of low lattice misfit and high-density of nanoscale precipitates obtained through soluti...
The microstructural evolution in a set of Mn-based maraging steels (7–12 wt% Mn) when aged at 460–50...
Methods for increasing the strength of maraging steels are discussed. An investigation was conducted...
Fractography and metallographic sectioning were used to investigate the influence of microstructure ...
An investigation of the plastic fracture process to improve tensile strength in high strength steels...
Maraging steels have low carbon content (<0.02%) and high nickel content. They consist of Ni-Co-Mo-T...
This study aimed to evaluate the aging effects on mechanical properties of 18Ni (300) maraging steel...
Nicht verfügbarThe very high cycle fatigue (VHCF) properties of four 18Ni maraging steels were inves...
Plane strain fracture toughness of 18 Ni /250/ and 18 Ni /200/ maraging welded steel plat
A physics–based modelling framework to describe microstructure and mechanical properties in maraging...
An 18-Ni 300 grade maraging steel was processed by selective laser melting and an investigation was ...
The concept of low lattice misfit and high-density of nanoscale precipitates obtained through soluti...
L'acier maraging inoxydable MLX17, développé et élaboré par Aubert & Duval, est une nuance candidate...
This thesis details work that was carried out to optimise the fracture toughness and thermal stabili...
requirements for the degree of Doctor of Philosophy. Pmooth bar tensile tests, plane strain tensile ...
The concept of low lattice misfit and high-density of nanoscale precipitates obtained through soluti...
The microstructural evolution in a set of Mn-based maraging steels (7–12 wt% Mn) when aged at 460–50...
Methods for increasing the strength of maraging steels are discussed. An investigation was conducted...
Fractography and metallographic sectioning were used to investigate the influence of microstructure ...
An investigation of the plastic fracture process to improve tensile strength in high strength steels...
Maraging steels have low carbon content (<0.02%) and high nickel content. They consist of Ni-Co-Mo-T...
This study aimed to evaluate the aging effects on mechanical properties of 18Ni (300) maraging steel...
Nicht verfügbarThe very high cycle fatigue (VHCF) properties of four 18Ni maraging steels were inves...
Plane strain fracture toughness of 18 Ni /250/ and 18 Ni /200/ maraging welded steel plat
A physics–based modelling framework to describe microstructure and mechanical properties in maraging...
An 18-Ni 300 grade maraging steel was processed by selective laser melting and an investigation was ...
The concept of low lattice misfit and high-density of nanoscale precipitates obtained through soluti...
L'acier maraging inoxydable MLX17, développé et élaboré par Aubert & Duval, est une nuance candidate...
This thesis details work that was carried out to optimise the fracture toughness and thermal stabili...
requirements for the degree of Doctor of Philosophy. Pmooth bar tensile tests, plane strain tensile ...
The concept of low lattice misfit and high-density of nanoscale precipitates obtained through soluti...
The microstructural evolution in a set of Mn-based maraging steels (7–12 wt% Mn) when aged at 460–50...