Muon Collider Forum report

K. M. Black; S. Jindariani; D. Li; F. Maltoni; P. Meade et al. 

Towards a muon collider (vol 83, 864, 2023)

C. Accettura; D. Adams; R. Agarwal; C. Ahdida; C. Aime et al. 

Solute-strengthening in metal alloys with short-range order

S. Nag; W. Curtin 

Natural aging and vacancy trapping in Al-6xxx

A. C. P. Jain; M. Ceriotti; W. A. Curtin 

Machine-learned interatomic potentials: Recent developments and prospective applications

V. Eyert; J. Wormald; W. A. Curtin; E. Wimmer 

Atomistic simulations reveal strength reductions due to short-range order in alloys

X. Liu; W. A. Curtin 

Mechanism of thermally-activated prismatic slip in Mg

X. Liu; W. A. Curtin 

Towards a muon collider

C. Accettura; D. Adams; R. Agarwal; C. Ahdida; C. Aime et al. 

Solute misfit and solute interaction effects on strengthening: A case study in AuNi

B. Yin; L. Li; S. Drescher; S. Seils; S. Nag et al. 

The influence of lattice misfit on screw and edge dislocation-controlled solid solution strengthening in Mo-Ti alloys

G. Winkens; A. Kauffmann; J. Herrmann; A. K. Czerny; S. Obert et al. 

A low-temperature prismatic slip instability in Mg understood using machine learning potentials

X. Liu; M. R. Niazi; T. Liu; B. Yin; W. A. Curtin 

Lattice Green’s function method for Atomistic/Continuum coupling

Screw vs. edge dislocation strengthening in body-centered-cubic high entrophy alloys and implications for guided alloy design

C. Baruffi; F. Maresca; W. A. Curtin 

Theory-guided design of high-strength, high-melting point, ductile, low-density, single-phase BCC high entropy alloys

Y. Rao; C. Baruffi; A. De Luca; C. Leinenbach; W. A. Curtin 

Modeling of precipitate strengthening with near-chemical accuracy: case study of Al-6xxx alloys

Y. Hu; W. A. Curtin 

Efficient lattice Green’s function method for bounded domain problems

A. Gupta; M. Hodapp; W. A. Curtin 

Theory of spontaneous grain boundary roughening in high entropy alloys

C. Baruffi; W. A. Curtin 

Machine learning for metallurgy V: A neural-network potential for zirconium

M. Liyanage; D. Reith; V. Eyert; W. A. Curtin 

Machine learning for metallurgy IV: A neural network potential for Al-Cu-Mg and Al-Cu-Mg-Zn

D. Marchand; W. A. Curtin 

High throughput synthesis enabled exploration of CoCrFeNi-based high entropy alloys

L. Zhao; L. Jiang; L. X. Yang; H. Wang; W. Y. Zhang et al. 

Progress and challenges in the theory and modeling of complex concentrared alloys

W. A. Curtin; S. Rao; C. Woodward 

Screw-controlled strength of BCC non-dilute and high-entropy alloys

A. Ghafarollahi; W. A. Curtin 

Analytical models of short-range order in FCC and BCC alloys

Y. Rao; W. A. Curtin 

Efficient Meso-Scale Modeling of Alkali-Silica-Reaction Damage in Concrete

Strengthening mechanisms in dilute and random solid solution high-entropy BCC alloys

Analysis of the flexible boundary condition method

A. Gupta; W. A. Curtin 

Mechanism and Prediction of Hydrogen Embrittlement in fcc Stainless Steels and High Entropy Alloys

X. Zhou; A. Tehranchi; W. A. Curtin 

Strength can be controlled by edge dislocations in refractory high-entropy alloys

C. Lee; F. Maresca; R. Feng; Y. Chou; T. Ungar et al. 

High energy barriers for edge dislocation motion in body-centered cubic high entropy alloys

R. E. Kubilay; A. Ghafarollahi; F. Maresca; W. A. Curtin 

A ductility criterion for bcc high entropy alloys

E. Mak; B. Yin; W. A. Curtin 

Theory of twin strengthening in fcc high entropy alloys

R. E. Kubilay; W. Curtin 

Theory of kink migration in dilute BCC alloys

A. Ghafarollahi; W. Curtin 

Machine learning for metallurgy III: A neural network potential for Al-Mg-Si

A. C. P. Jain; D. Marchand; A. Glensk; M. Ceriotti; W. A. Curtin 

Giant hardening response in AlMgZn(Cu) alloys

L. Stemper; M. A. Tunes; P. Dumitraschkewitz; F. Mendez-Martin; R. Tosone et al. 

Modeling peak-aged precipitate strengthening in Al–Mg–Si alloys

Y. Hu; W. Curtin 

Effect of Solute-Solute Interactions on Strengthening of Random Alloys from Dilute to High Entropy Alloys (vol 200, pg 659, 2020)

S. Nag; W. A. Curtin 

Atomic scale investigations of fracture in metal alloys

Recent Advances on Hydrogen Embrittlement Understanding and Future Research Framework, Editorial

M. B. Djukic; W. A. Curtin; Z. Zhang; A. Sedmak 

Measurement and prediction of the transformation strain that controls ductility and toughness in advanced steels

F. Maresca; E. Polatidis; M. Smid; H. Van Swygenhoven; W. A. Curtin 

Effect of solute-solute interactions on strengthening of random alloys from dilute to high entropy alloys

S. Nag; W. A. Curtin 

Machine learning for metallurgy I. A neural-network potential for Al-Cu

D. J. G. Marchand; A. Jain; A. Glensk; W. Curtin 

Machine learning for metallurgy II. A neural-network potential for magnesium

M. Stricker; B. Yin; E. Mak; W. A. Curtin 

Design using randomness: a new dimension for metallurgy

W. G. Noehring; W. A. Curtin 

First principles study of the effect of hydrogen in austenitic stainless steels and high entropy alloys

X. Zhou; W. Curtin 

Searching for long-lived particles beyond the Standard Model at the Large Hadron Collider

J. Alimena; J. Beacham; M. Borsato; Y. Cheng; X. C. Vidal et al. 

Theory of double-kink nucleation in dilute BCC alloys

A. Ghafarollahi; W. A. Curtin 

Origin of high strength in the CoCrFeNiPd high-entropy alloy

B. Yin; W. A. Curtin 

Yield strength and misfit volumes of NiCoCr and implications for short-range-order

B. Yin; S. Yoshida; N. Tsuji; W. A. Curtin 

High entropy alloys: A focused review of mechanical properties and deformation mechanisms

E. P. George; W. A. Curtin; C. C. Tasan 

Vanadium is an optimal element for strengthening in both fcc and bcc high-entropy alloys

B. Yin; F. Maresca; W. A. Curtin 

Intrinsic fracture behavior of Mg-Y alloys

E. Mak; W. A. Curtin 

Solute-strengthening in elastically anisotropic fcc alloys

S. Nag; C. Varvenne; W. A. Curtin 

A decohesion pathway for hydrogen embrittlement in nickel: Mechanism and quantitative prediction

A. Tehranchi; X. Zhou; W. A. Curtin 

Analysis of double cross-slip of pyramidal I < c plus a > screw dislocations and implications for ductility in Mg alloys

R. Ahmad; Z. Wu; W. A. Curtin 

Design of Ductile Rare-Earth-Free Magnesium Alloys

W. A. Curtin; R. Ahmad; B. Yin; Z. Wu 

Theory of screw dislocation strengthening in random BCC alloys from dilute to “High-Entropy” alloys

F. Maresca; W. A. Curtin 

Mechanistic origin of high strength in refractory BCC high entropy alloys up to 1900K

F. Maresca; W. A. Curtin 

Solute/screw dislocation interaction energy parameter for strengthening in bcc dilute to high entropy alloys

A. Ghafarollahi; F. Maresca; W. A. Curtin 

Atomistic dislocation core energies and calibration of non-singular discrete dislocation dynamics

Y. Hu; B. A. Szajewski; D. Rodney; W. A. Curtin 

Atomistic-continuum coupling of random alloys

S. Nag; T. Junge; W. A. Curtin 

Combining experiments and modeling to explore the solid solution strengthening of high and medium entropy alloys

G. Bracq; M. Laurent-Brocq; C. Varvenne; L. Perriere; W. A. Curtin et al. 

Correlation of microdistortions with misfit volumes in High Entropy Alloys

W. G. Noehring; W. A. Curtin 

FCC-hh: The Hadron Collider: Future Circular Collider Conceptual Design Report Volume 3

A. Abada; M. Abbrescia; S. S. AbdusSalam; I. Abdyukhanov; J. Abelleira Fernandez et al. 

The role of atomistic simulations in probing hydrogen effects on plasticity and embrittlement in metals

A. Tehranchi; W. A. Curtin 

HE-LHC: The High-Energy Large Hadron Collider Future Circular Collider Conceptual Design Report Volume 4

A. Abada; M. Abbrescia; S. S. AbdusSalam; I. Abdyukhanov; J. Abelleira Fernandez et al. 

Designing high ductility in magnesium alloys

R. Ahmad; B. Yin; Z. Wu; W. A. Curtin 

FCC Physics Opportunities: Future Circular Collider Conceptual Design Report Volume 1

A. Abada; M. Abbrescia; S. S. AbdusSalam; I. Abdyukhanov; J. A. Fernandez et al. 

FCC-ee: The Lepton Collider: Future Circular Collider Conceptual Design Report Volume 2

A. Abada; M. Abbrescia; S. S. AbdusSalam; I. Abdyukhanov; J. A. Fernandez et al. 

First-principles-based prediction of yield strength in the RhIrPdPtNiCu high-entropy alloy

B. Yin; W. A. Curtin 

Modeling the kinetics of the main peak and later age of alite hydration

Lattice Green function methods for atomistic/continuum coupling: Theory and data-sparse implementation

M. Hodapp; G. Anciaux; W. Curtin 

Atomistic modeling of fracture

P. Andric; W. A. Curtin 

Stress-dependence of generalized stacking fault energies

P. Andric; B. Yin; W. Curtin 

Screw dislocation structure and mobility in body centered cubic Fe predicted by a Gaussian Approximation Potential

F. Maresca; D. Dragoni; G. Csanyi; N. Marzari; W. A. Curtin 

A model for cellular mechanotransduction and contractility at finite strain

N. Bouklas; M. S. Sakar; W. A. Curtin 

Coupled atomistic/discrete dislocation method in 3D Part II: Validation of the method

M. Hodapp; G. Anciaux; J-F. Molinari; W. Curtin 

Coupled Atomistics and Discrete Dislocations in 3d (CADD-3d)

G. Anciaux; J. Cho; T. Junge; M. L. Hodapp; J-F. Molinari et al. 

A model for cellular mechanotransduction and contractility at finite strain

N. Bouklas; S. Sakar; W. A. Curtin 

Solute strengthening of basal slip in Mg alloys

A. Tehranchi; B. Yin; W. Curtin 

Cross-slip of long dislocations in FCC solid solutions

W. G. Nöhring; W. Curtin 

Contribution of austenite-martensite transformation to deformability of advanced high strength steels: From atomistic mechanisms to microstructural response

F. Maresca; V. Kouznetsova; M. Geers; W. Curtin 

New theory for crack-tip twinning in fcc metals

P. Andric; W. Curtin 

Predicting yield strengths of noble metal high entropy alloys

C. Varvenne; W. A. Curtin 

Thermal activation parameters of plastic flow reveal deformation mechanisms in the CrMnFeCoNi high-entropy alloy

G. Laplanche; J. Bonneville; C. Varvenne; W. A. Curtin; E. P. George 

Coupled Atomistics and Discrete Dislocations in 3d(CADD-3d)

G. Anciaux; J. Cho; T. Junge; J-F. Molinari; W. Curtin 

Neural network potential for Al-Mg-Si alloys

R. Kobayashi; D. Giofre; T. Junge; M. Ceriotti; W. A. Curtin 

The X-Mechanics toolbox to solve Y-Mechanics problems

W. A. Curtin 

Atomistic mechanisms of hydrogen embrittlement

Crack growth and fracture toughness of amorphous Li-Si anodes: Mechanisms and role of charging/discharging studied by atomistic simulations

S. M. Khosrownejad; W. A. Curtin 

Atomistic study of hydrogen embrittlement of grain boundaries in nickel: II. Decohesion

A. Tehranchi; W. A. Curtin 

Ab initio Modelling of the Early Stages of Precipitation in Al-6000 Alloys

D. Giofré; T. Junge; W. Curtin; M. Ceriotti 

The austenite/lath martensite interface in steels: Structure, athermal motion, and in-situ transformation strain revealed by simulation and theory

F. Maresca; W. A. Curtin 

Elastic Effects in Adsorbate-Adsorbate Interactions of C and S on a Stepped Ru Surface

M. F. Francis; W. A. Curtin 

Strengthening of high entropy alloys by dilute solute additions: CoCrFeNiAlx and CoCrFeNiMnAlx alloys

C. Varvenne; W. A. Curtin 

New theory for. Mode I crack-tip dislocation emission

P. Andric; W. A. Curtin 

First-principles calculations of stacking fault energies in Mg-Y, Mg-Al and Mg-Zn alloys and implications for < c plus a > activity

B. Yin; Z. Wu; W. A. Curtin 

Atomistic study of hydrogen embrittlement of grain boundaries in nickel: I. Fracture

A. Tehranchi; W. A. Curtin 

Cast aluminium single crystals cross the threshold from bulk to size-dependent stochastic plasticity

J. Krebs; S. I. Rao; S. Verheyden; C. Miko; R. Goodall et al. 

Mechanical Stress Combined with Alloying May Allow Continuous Control Over Reactivity: Strain Effects on CO Dissociation and Subsequent Methanation Catalysis over Ni(211), Ni3Fe(211), and NiFe(112)

M. F. Francis; W. A. Curtin 

Dislocation cross-slip in fcc solid solution alloys

W. G. Nöhring; W. A. Curtin