Add to ORKGA study has been made of both the transformation behaviour and mechanical properties of a series of very low carbon iron manganese alloys within the range 0 to 10% manganese. Alloys containing between 4 and 10% manganese were found to undergo a martensitic transformation which was identical to the lath or massive martensite reaction found in other iron alloys. A possible bainitic reaction was also-found in alloys containing between 4 and 6% manganese, and was referred to as recovery assisted martensite owing to the possible assistance to growth by recovery processes in either the austenite or martensite. In the lath martensitic condition the iron manganese alloys were shown to possess good tensile strengths and ductilities but their impact ...
Steels with high manganese content have been gaining more prominence due to their high toughness in ...
This study examines the sintering behavior and properties of Fe-0.8Mn-0.5C manganese powder metallur...
The microstructural evolution in a set of Mn-based maraging steels (7–12 wt% Mn) when aged at 460–50...
Alloys in the lower part of the range under investigation have been reported as being brittle by som...
The microstruectures of Fe-Mn-Co and Fe-Mn-Co-Mo alloys in various conditions of heat treatment have...
Fe-8Mn alloys may form the basis of a cryogenic steel similar to Fe-9Ni steels, but at a cost much m...
The effects of manganese concentration and carbon addition on the martensitic transformation tempera...
High manganese steel or austenitic manganese steelcommonly are used in mining industries such as the...
Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Metallurgy, 1967.Vita.Includes bibl...
A study has been made on a new type of wear resistant/high strength iron-manganse-molybdenum steel....
University of Minnesota Ph.D. dissertation. May 2010. Major: Aerospace Engineering and Mechanics. Ad...
Phenomenological theory of the martensite transformation as to the habit plane is presented and appl...
Austenitic cast iron broadly used in chemical and power plant, automotive and oil and gas industry. ...
Mechanical behaviour of Fe-18Ni maraging alloys have been studied by partially substitution of Ni by...
International audienceCarbon and manganese combined effect on the mechanical behavior of martensite ...
Steels with high manganese content have been gaining more prominence due to their high toughness in ...
This study examines the sintering behavior and properties of Fe-0.8Mn-0.5C manganese powder metallur...
The microstructural evolution in a set of Mn-based maraging steels (7–12 wt% Mn) when aged at 460–50...
Alloys in the lower part of the range under investigation have been reported as being brittle by som...
The microstruectures of Fe-Mn-Co and Fe-Mn-Co-Mo alloys in various conditions of heat treatment have...
Fe-8Mn alloys may form the basis of a cryogenic steel similar to Fe-9Ni steels, but at a cost much m...
The effects of manganese concentration and carbon addition on the martensitic transformation tempera...
High manganese steel or austenitic manganese steelcommonly are used in mining industries such as the...
Thesis (Sc. D.)--Massachusetts Institute of Technology, Dept. of Metallurgy, 1967.Vita.Includes bibl...
A study has been made on a new type of wear resistant/high strength iron-manganse-molybdenum steel....
University of Minnesota Ph.D. dissertation. May 2010. Major: Aerospace Engineering and Mechanics. Ad...
Phenomenological theory of the martensite transformation as to the habit plane is presented and appl...
Austenitic cast iron broadly used in chemical and power plant, automotive and oil and gas industry. ...
Mechanical behaviour of Fe-18Ni maraging alloys have been studied by partially substitution of Ni by...
International audienceCarbon and manganese combined effect on the mechanical behavior of martensite ...
Steels with high manganese content have been gaining more prominence due to their high toughness in ...
This study examines the sintering behavior and properties of Fe-0.8Mn-0.5C manganese powder metallur...
The microstructural evolution in a set of Mn-based maraging steels (7–12 wt% Mn) when aged at 460–50...