Quantities and distribution of strain-induced vacancies and dislocations enhanced by hydrogen in iron

Microscopic defects formed during crack incubation, initiation and propagation processes causing hydrogen-related fracture of dual-phase steels

(2020) Daichi Asari et al.   MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING

Hydrogen Embrittlement Susceptibility Evaluation of Tempered Martensitic Steels Showing Different Fracture Surface Morphologies

(2019) Kippei Ogawa et al.   ISIJ INTERNATIONAL

Hydrogen Desorption Spectra from Excess Vacancy-Type Defects Enhanced by Hydrogen in Tempered Martensitic Steel Showing Quasi-cleavage Fracture

(2019) Kei Saito et al.   METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE

Mechanical and microstructural analysis on hydrogen-related fracture in a martensitic steel

(2019) Akinobu Shibata et al.   INTERNATIONAL JOURNAL OF HYDROGEN ENERGY

Interpretation of hydrogen-assisted fatigue crack propagation in BCC iron based on dislocation structure evolution around the crack wake

(2018) Domas Birenis et al.   ACTA MATERIALIA

Hydrogen Embrittlement and Local Characterization at Crack Initiation Associated with Phase Transformation of High-strength Steel Containing Retained Austenite

(2018) Taku Nagase et al.   ISIJ INTERNATIONAL

Hydrogen behavior in high strength steels during various stress applications corresponding to different hydrogen embrittlement testing methods

(2018) Yu Matsumoto et al.   MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING

The predominant role of strain-induced vacancies in hydrogen embrittlement of steels: Overview

(2018) Michihiko Nagumo et al.   ACTA MATERIALIA

Hydrogen desorption and cracking associated with martensitic transformation in Fe-Cr-Ni-Based austenitic steels with different carbon contents

(2017) Motomichi Koyama et al.   INTERNATIONAL JOURNAL OF HYDROGEN ENERGY

The Role of Hydrogen-Enhanced Strain-Induced Lattice Defects on Hydrogen Embrittlement Susceptibility of X80 Pipeline Steel

(2017) M. Hattori et al.   JOM

Changes in mechanical properties following cyclic prestressing of martensitic steel containing vanadium carbide in presence of nondiffusible hydrogen

(2016) Mao Kaneko et al.   MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING

Method of Evaluating Delayed Fracture Susceptibility of Tempered Martensitic Steel Showing Quasi-Cleavage Fracture

(2016) Yu Matsumoto et al.   METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE

Martensitic transformation-induced hydrogen desorption characterized by utilizing cryogenic thermal desorption spectroscopy during cooling

(2016) Motomichi Koyama et al.   SCRIPTA MATERIALIA

Multiscale thermodynamic analysis on hydrogen-induced intergranular cracking in an alloy steel with segregated solutes

(2015) Masatake Yamaguchi et al.   CORROSION REVIEWS

Dependence of hydrogen-induced lattice defects and hydrogen embrittlement of cold-drawn pearlitic steels on hydrogen trap state, temperature, strain rate and hydrogen content

(2014) Tomoki Doshida et al.   ACTA MATERIALIA

Theory and application of electron channelling contrast imaging under controlled diffraction conditions

(2014) Stefan Zaefferer et al.   ACTA MATERIALIA

Hydrogen-assisted decohesion and localized plasticity in dual-phase steel

(2014) Motomichi Koyama et al.   ACTA MATERIALIA

Hydrogen-induced intergranular failure of iron

(2014) Shuai Wang et al.   ACTA MATERIALIA

Hydrogen embrittlement of austenitic stainless steels revealed by deformation microstructures and strain-induced creation of vacancies

(2014) M. Hatano et al.   ACTA MATERIALIA

Numerical Analysis of Influence of Hydrogen Charging Method on Thermal Desorption Spectra for Pre-strained High-Strength Steel

(2014) Ken-ichi Ebihara et al.   ISIJ INTERNATIONAL

Hydrogen-enhanced lattice defect formation and hydrogen embrittlement of cyclically prestressed tempered martensitic steel

(2013) T. Doshida et al.   ACTA MATERIALIA

The effect of hydrogen atoms on the screw dislocation mobility in bcc iron: A first-principles study

(2013) M. Itakura et al.   ACTA MATERIALIA

Reduction of Delayed Fracture Susceptibility of Tempered Martensitic Steel through Increased Si Content and Surface Softening

(2013) Yu Matsumoto et al.   ISIJ INTERNATIONAL

The role of hydrogen in hydrogen embrittlement fracture of lath martensitic steel

(2012) Akihide Nagao et al.   ACTA MATERIALIA

Enhanced Lattice Defect Formation Associated with Hydrogen and Hydrogen Embrittlement under Elastic Stress of a Tempered Martensitic Steel

(2012) Tomoki Doshida et al.   ISIJ INTERNATIONAL

Solid solution softening and hardening by mobile solute atoms with special focus on hydrogen

(2012) Reiner Kirchheim   SCRIPTA MATERIALIA

Atomistic study of the competitive relationship between edge dislocation motion and hydrogen diffusion in alpha iron

(2011) Shinya Taketomi et al.   JOURNAL OF MATERIALS RESEARCH

Energetics of small hydrogen–vacancy clusters in bcc iron

(2011) Erin Hayward et al.   JOURNAL OF PHYSICS-CONDENSED MATTER

Dislocation density measurement by electron channeling contrast imaging in a scanning electron microscope

(2011) I. Gutierrez-Urrutia et al.   SCRIPTA MATERIALIA

Hydrogen Desorption Behavior of Pure Iron and Inconel 625 during Elastic and Plastic Deformation

(2010) Hiroki Shoda et al.   ISIJ INTERNATIONAL

Atomistic study of hydrogen distribution and diffusion around a {112} edge dislocation in alpha iron

(2008) Shinya Taketomi et al.   ACTA MATERIALIA

Lattice defects dominating hydrogen-related failure of metals

(2008) K. Takai et al.   ACTA MATERIALIA