Pearlite, Cementite, Diffusionless transformation and Bainite are inherently bound to his Austenite studies. His study ties his expertise on Microstructure together with the subject of Cementite. Microstructure and Alloy are two areas of study in which he engages in interdisciplinary work. He undertakes interdisciplinary study in the fields of Alloy and Austenite through his research. His Martensite research is covered under the topics of Lath, Diffusionless transformation and Bainite. His Internal medicine study frequently draws connections between adjacent fields such as Adverse effect and Adjunctive treatment. Many of his studies involve connections with topics such as Carbide and Metallurgy. His research is interdisciplinary, bridging the disciplines of Composite material and Carbide. His work on Lamellar structure expands to the thematically related Composite material.
His main research concerns Metallurgy, Composite material, Crystallography, Thermodynamics, Organic chemistry, Biochemistry and Optics. He performs integrative study on Microstructure and Alloy. He connects Alloy with Microstructure in his research. George Krauss conducts interdisciplinary study in the fields of Austenite and Martensite through his works. With his scientific publications, his incorporates both Martensite and Austenite. George Krauss undertakes multidisciplinary studies into Tempering and Metallurgy in his work. His research is interdisciplinary, bridging the disciplines of Composite material and Ferrite (magnet).
His Metallurgy study frequently draws parallels with other fields, such as Embrittlement. In his works, George Krauss undertakes multidisciplinary study on Tempering and Microalloyed steel. George Krauss merges many fields, such as Microalloyed steel and Austenite, in his writings. In his papers, George Krauss integrates diverse fields, such as Austenite and Martensite. His Lath research extends to the thematically linked field of Martensite. His work in Lath is not limited to one particular discipline; it also encompasses Microstructure. He incorporates Microstructure and Toughness in his research. While working in this field, he studies both Toughness and Ultimate tensile strength. In his papers, George Krauss integrates diverse fields, such as Ultimate tensile strength and Charpy impact test.
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Martensite in steel: strength and structure
Materials Science and Engineering A-structural Materials Properties Microstructure and Processing (1999)
Steels: Processing, Structure, And Performance
Ferritic Microstructures in Continuously Cooled Low- and Ultralow-carbon Steels
George Krauss;Steven W. Thompson.
Isij International (1995)
Principles of Heat Treatment of Steel
The effect of structure on the deformation of as-quenched and tempered martensite in an Fe-0.2 pct C alloy
Thomas Swarr;George Krauss.
Metallurgical and Materials Transactions A-physical Metallurgy and Materials Science (1976)
Continuous cooling transformations and microstructures in a low-carbon, high-strength low-alloy plate steel
S. W. Thompson;D. J. Vin Col;G. Krauss.
Metallurgical and Materials Transactions A-physical Metallurgy and Materials Science (1990)
Martensite formation, strain rate sensitivity, and deformation behavior of type 304 stainless steel sheet
G. L. Huang;Dk. Matlock;G. Krauss.
Metallurgical and Materials Transactions A-physical Metallurgy and Materials Science (1989)
Dislocation substructure as a function of strain in a dual-phase steel
D. A. Korzekwa;D. K. Matlock;G. Krauss.
Metallurgical and Materials Transactions A-physical Metallurgy and Materials Science (1984)
Microstructures and properties of direct-cooled microalloy forging steels
D.K. Matlock;G. Krauss;J.G. Speer.
Journal of Materials Processing Technology (2001)
Deformation and fracture in martensitic carbon steels tempered at low temperatures
Metallurgical and Materials Transactions B-process Metallurgy and Materials Processing Science (2001)
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