Comparative study of shock-wave hardening and substructure evolution of 304L and Hadfield steels irradiated with a nanosecond relativistic high-current electron beam

Author:

Gnyusov S.F.,Rotshtein V.P.,Mayer A.E.ORCID,Astafurova E.G.,Rostov V.V.,Gunin A.V.,Maier G.G.

Funder

President of the Russian Federation

Ministry of Education and Science of the Russian Federation

Act 211 Government of the Russian Federation

Fundamental Researches of the State Academies of Sciences

Publisher

Elsevier BV

Subject

Materials Chemistry,Metals and Alloys,Mechanical Engineering,Mechanics of Materials

Reference63 articles.

1. Residual microstructure - mechanical property relationships in shock-loaded metals and alloys;Murr,1981

2. Influence of shock-wave deformation on the structure/property behavior of materials;Gray,1993

3. Spall Fracture;Antoun,2003

4. Characterization of the TRIP/TWIP effect in austenitic stainless steels using Stress-Temperature-Transformation (STT) and Deformation-Temperature-Transformation (DTT) diagrams;Kovalev;Steel Res. Int.,2011

5. Strain hardening of Hadfield manganese steel;Adler;Metall. Mater. Trans. A,1986

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