Pascal Bellon
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View article: A strategy for imparting radiation resistance to dilute alloys using synergistic solutes
A strategy for imparting radiation resistance to dilute alloys using synergistic solutes Open
View article: Global self-organization of solute induced by ion irradiation in polycrystalline alloys
Global self-organization of solute induced by ion irradiation in polycrystalline alloys Open
View article: A Strategy for Imparting Radiation Resistance to Dilute Alloys Using Synergistic Solutes
A Strategy for Imparting Radiation Resistance to Dilute Alloys Using Synergistic Solutes Open
View article: Investigation of radiation-induced segregation at fully characterized coherent twin boundaries in proton-irradiated 316L stainless steel
Investigation of radiation-induced segregation at fully characterized coherent twin boundaries in proton-irradiated 316L stainless steel Open
View article: Additive manufacturing of an ultrastrong, deformable Al alloy with nanoscale intermetallics
Additive manufacturing of an ultrastrong, deformable Al alloy with nanoscale intermetallics Open
Light-weight, high-strength, aluminum (Al) alloys have widespread industrial applications. However, most commercially available high-strength Al alloys, like AA 7075, are not suitable for additive manufacturing due to their high susceptibi…
View article: Investigation of Radiation-Induced Segregation at Fully Characterized Coherent Twin Boundaries in Proton-Irradiated 316l Stainless Steel
Investigation of Radiation-Induced Segregation at Fully Characterized Coherent Twin Boundaries in Proton-Irradiated 316l Stainless Steel Open
View article: Convection-Induced Compositional Patterning at Grain Boundaries in Irradiated Alloys
Convection-Induced Compositional Patterning at Grain Boundaries in Irradiated Alloys Open
We consider the stability of precipitates formed at grain boundaries (GBs) by radiation-induced segregation in dilute alloys subjected to irradiation. The effects of grain size and misorientation of symmetric-tilt GBs are quantified using …
View article: RETRACTED: Additive manufacturing of an ultrastrong, deformable Al alloy with nanoscale intermetallics
RETRACTED: Additive manufacturing of an ultrastrong, deformable Al alloy with nanoscale intermetallics Open
The authors have requested that this preprint be removed from Research Square.
View article: Convection-induced compositional patterning at grain boundaries in irradiated alloys
Convection-induced compositional patterning at grain boundaries in irradiated alloys Open
We consider the stability of precipitates formed at grain boundaries (GBs) by radiation-induced segregation in dilute alloys subjected to irradiation. The effects of grain size and misorientation of symmetric-tilt GBs are quantified using …
View article: Role of interfaces on phase formation during severe plastic deformation
Role of interfaces on phase formation during severe plastic deformation Open
View article: Strengthening of nanocrystalline Al using grain boundary solute additions: Effects of thermal annealing and ion irradiation
Strengthening of nanocrystalline Al using grain boundary solute additions: Effects of thermal annealing and ion irradiation Open
View article: Anisotropic Cahn-Hilliard free energy and interfacial energies for binary alloys with pairwise interactions
Anisotropic Cahn-Hilliard free energy and interfacial energies for binary alloys with pairwise interactions Open
View article: A Review: Microstructural and Phase Evolution in Alloys during Extended Plastic Deformation
A Review: Microstructural and Phase Evolution in Alloys during Extended Plastic Deformation Open
View article: Phase evolution in driven alloys: An overview on compositional patterning
Phase evolution in driven alloys: An overview on compositional patterning Open
View article: Compositional patterning in irradiated alloys: Effective potentials and effective interfacial energy
Compositional patterning in irradiated alloys: Effective potentials and effective interfacial energy Open
Compositional patterning (CP) in binary alloys during energetic particle irradiation is studied using a kinetic model that considers two competing kinetic processes, a thermally activated one promoting macroscopic phase separation (MPS) of…
View article: Phase evolution in two-phase alloys during severe plastic deformation
Phase evolution in two-phase alloys during severe plastic deformation Open
View article: Impact of Computational Curricular Reform on Non-participating Undergraduate Courses: Student and Faculty Perspective
Impact of Computational Curricular Reform on Non-participating Undergraduate Courses: Student and Faculty Perspective Open
A computational approach has become an indispensable tool in materials science research and related industry. At the University of Illinois, Urbana-Champaign, our team at the Department of Materials Science and Engineering (MSE), as part o…
View article: Impact of Integrating Computation into Undergraduate Curriculum: New Modules and Long-term Trends
Impact of Integrating Computation into Undergraduate Curriculum: New Modules and Long-term Trends Open
Computational methods have become increasingly used in both academia and industry.At the University of Illinois Urbana Champaign, the Department of Materials Science and Engineering (MSE), as part of a university-funded educational innovat…
View article: Phase Evolution in Two-Phase Alloys During Severe Plastic Deformation
Phase Evolution in Two-Phase Alloys During Severe Plastic Deformation Open
View article: Materials for Extreme Irradiation Environments
Materials for Extreme Irradiation Environments Open
Award DE-FG02-05ER46217 consisted of two phases: From 8/2005 to 8/2010, it supported two PIs, R. S. Averback and P. Bellon, on an effort entitled “Microstructural evolution and mechanical response of complex alloys under prolonged particle…
View article: Erratum: Modeling the long-term evolution of dilute solid solutions in the presence of vacancy fluxes [Phys. Rev. Materials <b>2</b>, 073605 (2018)]
Erratum: Modeling the long-term evolution of dilute solid solutions in the presence of vacancy fluxes [Phys. Rev. Materials <b>2</b>, 073605 (2018)] Open
Received 20 August 2019DOI:https://doi.org/10.1103/PhysRevMaterials.3.109901©2019 American Physical SocietyPhysics Subject Headings (PhySH)Research AreasDiffusionImpuritiesIrradiation effectsPoint defectsVacanciesPhysical SystemsSolid solu…
View article: Probing the subsurface lattice rotation dynamics in bronze after sliding wear
Probing the subsurface lattice rotation dynamics in bronze after sliding wear Open
View article: Effect of annealing treatment on the dry sliding wear behavior of copper
Effect of annealing treatment on the dry sliding wear behavior of copper Open
View article: Effects of ternary alloy additions on the microstructure of highly immiscible Cu alloys subjected to severe plastic deformation: An evaluation of the effective temperature model
Effects of ternary alloy additions on the microstructure of highly immiscible Cu alloys subjected to severe plastic deformation: An evaluation of the effective temperature model Open
View article: Modeling the long-term evolution of dilute solid solutions in the presence of vacancy fluxes
Modeling the long-term evolution of dilute solid solutions in the presence of vacancy fluxes Open
This work investigates the long-term evolution of dilute solute atoms in face-centered-cubic (fcc) alloys driven by sustained vacancy fluxes, as for instance in the case of materials subjected to energetic particle irradiation. Employing t…
View article: Computational Curriculum for MatSE Undergraduates
Computational Curriculum for MatSE Undergraduates Open
Computational materials modeling and design has emerged as a vital component of materials research and development in academic, industrial, and national lab settings. In response, US Materials Science and Engineering (MatSE) departments an…
View article: Effects of Ternary Alloy Additions on the Microstructure of Highly Immiscible Cu Alloys Subjected to Severe Plastic Deformation: An Evaluation of the Effective Temperature Model
Effects of Ternary Alloy Additions on the Microstructure of Highly Immiscible Cu Alloys Subjected to Severe Plastic Deformation: An Evaluation of the Effective Temperature Model Open
View article: Novel mechanism for order patterning in alloys driven by irradiation
Novel mechanism for order patterning in alloys driven by irradiation Open
Kinetic Monte Carlo simulations have been performed to investigate the evolution of ordered domains in model alloys under irradiation. The alloys investigated were equiatomic binary alloys on a simple square lattice with first and second n…
View article: Self-organized, size-selection of precipitates during severe plastic deformation of dilute Cu-Nb alloys at low temperatures
Self-organized, size-selection of precipitates during severe plastic deformation of dilute Cu-Nb alloys at low temperatures Open
View article: Phase evolution of highly immiscible alloys under shear deformation: Kinetic pathways, steady states, and the lever-rule
Phase evolution of highly immiscible alloys under shear deformation: Kinetic pathways, steady states, and the lever-rule Open