Hydrogen charging induces the formation of an hcp phase, ε- and α'- martensites in a metastable austenitic stainless steel, and the formation of microtwins and a braid-like dislocation structure in a ferritic stainless steel. Microcracks are initiated along α' lath boundaries and ε/α' boundaries in the former, and inside of microtwins in the latter
In this study, the effect of hydrogen on dislocation and twinning behavior along various grain bound...
In-situ tensile testing of electrochemically hydrogen charged 304L stainless steel at different cros...
95 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.Mechanical properties of auste...
Abstract Hydrogen embrittlement can occur in steels with metastable phases, due to ac...
Electrochemical hydrogen insertion in an austenitic stainless steel single crystal foil specimens re...
Internal hydrogen embrittlement of several austenitic stainless steels is known to be accompanied by...
Effects of microstructural changes induced by prestraining on hydrogen transport and hydrogen embrit...
We report the evolution of metastable precursor structures during hydrogen infusion in the near-surf...
Unstable austenitic stainless steels undergo a strain-induced martensite transformation. The effect ...
The effect of high levels of internal hydrogen on the microstructure evolving during stage II fatigu...
The present work provides an overview of the work on the interaction between hydrogen (H) and the st...
The local lattice strain evolution during electrochemical hydrogen charging and mechanical loading i...
The effect of electrochemical hydrogen-charging on tensile properties, mechanisms of plastic deforma...
The hydrogen induced damage and crack initiation in transformation induced plasticity (TRIP) steel i...
This study considers the interaction between duplex stainless steel type 2205 and electrochemically ...
In this study, the effect of hydrogen on dislocation and twinning behavior along various grain bound...
In-situ tensile testing of electrochemically hydrogen charged 304L stainless steel at different cros...
95 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.Mechanical properties of auste...
Abstract Hydrogen embrittlement can occur in steels with metastable phases, due to ac...
Electrochemical hydrogen insertion in an austenitic stainless steel single crystal foil specimens re...
Internal hydrogen embrittlement of several austenitic stainless steels is known to be accompanied by...
Effects of microstructural changes induced by prestraining on hydrogen transport and hydrogen embrit...
We report the evolution of metastable precursor structures during hydrogen infusion in the near-surf...
Unstable austenitic stainless steels undergo a strain-induced martensite transformation. The effect ...
The effect of high levels of internal hydrogen on the microstructure evolving during stage II fatigu...
The present work provides an overview of the work on the interaction between hydrogen (H) and the st...
The local lattice strain evolution during electrochemical hydrogen charging and mechanical loading i...
The effect of electrochemical hydrogen-charging on tensile properties, mechanisms of plastic deforma...
The hydrogen induced damage and crack initiation in transformation induced plasticity (TRIP) steel i...
This study considers the interaction between duplex stainless steel type 2205 and electrochemically ...
In this study, the effect of hydrogen on dislocation and twinning behavior along various grain bound...
In-situ tensile testing of electrochemically hydrogen charged 304L stainless steel at different cros...
95 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.Mechanical properties of auste...
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