Nothing Special   »   [go: up one dir, main page]

Shi et al., 2016 - Google Patents

Molecular Dynamics Study: Effects of He Bubble and Cr Precipitate on Tensile Deformation of Grain Boundaries in $\alpha $-Fe

Shi et al., 2016

Document ID
15031344411956675229
Author
Shi J
Peng L
Ye M
Gao F
Publication year
Publication venue
IEEE Transactions on Plasma Science

External Links

Snippet

To investigate irradiation-induced embrittlement in ferritic/martensitic (F/M) steels, molecular dynamics are applied to simulate tensile deformation of grain boundaries (GBs) under the effects of helium bubbles and Cr precipitates in pure α-Fe. Strength and elongation of …
Continue reading at ieeexplore.ieee.org (other versions)

Similar Documents

Publication Publication Date Title
Li et al. A review: applications of the phase field method in predicting microstructure and property evolution of irradiated nuclear materials
Shu et al. Multi-technique characterization of the precipitates in thermally aged and neutron irradiated Fe-Cu and Fe-Cu-Mn model alloys: Atom probe tomography reconstruction implications
Nastar et al. 1.18-Radiation-induced segregation
Lambrecht et al. On the correlation between irradiation-induced microstructural features and the hardening of reactor pressure vessel steels
Shang et al. Mechanical behavior of high-entropy alloys: A review
Becquart et al. Modeling microstructure and irradiation effects
Aitkaliyeva et al. Irradiation effects in Generation IV nuclear reactor materials
Lindgren et al. Evolution of precipitation in reactor pressure vessel steel welds under neutron irradiation
Singh et al. Effect of configurational order on the magnetic characteristics of Co-Ni-Ga ferromagnetic shape memory alloys
McEniry et al. Hydrogen behaviour at twist {110} grain boundaries in α-Fe
Shi et al. Molecular Dynamics Study: Effects of He Bubble and Cr Precipitate on Tensile Deformation of Grain Boundaries in $\alpha $-Fe
Sun et al. Multi-component phase-field simulation of microstructural evolution and elemental distribution in Fe–Cu–Mn–Ni–Al alloy
Garrett et al. Cu nanoprecipitate morphologies and interfacial energy densities in bcc Fe from density functional theory (DFT)
Zhang et al. Modeling of microscale internal stresses in additively manufactured stainless steel
Dai et al. Radiation-induced segregation on dislocation loops in austenitic Fe-Cr-Ni alloys
Chen et al. The interactions between dislocations and displacement cascades in FeCoCrNi concentrated solid-solution alloy and pure Ni
Penisten The Mechanism of Radiation-Induced Segregation in Ferritic-Martensitic Steels.
Zhong et al. Thermal stability of microstructures and mechanical properties in a Fe-based Fe-Cr-Mn-Cu-Mo multi-component alloy
Schäublin et al. Radiation damage in ferritic/martensitic steels for fusion reactors: a simulation point of view
Yin et al. Atomistic simulation of interactions between an edge dislocation and Cu precipitates with different chemical compositions in α-Fe
Shi et al. Defect effects on grain boundary strength in Fe: A molecular dynamics simulation
Petkov Modelling microstructure evolution, creep deformation and damage in Type 316H stainless steel
Paul et al. Effect of differently oriented interlayer phases on the radiation damage of Inconel-Ni multimetallic layered composite
Spanos et al. A methodology to aid in the design of naval steels: Linking first principles calculations to mesoscale modeling
Kulyadi Investigating single crystal plasticity of niobium with a dislocation mechanics-based model