Under Review
Chemically ordered dislocation defect phases as strengthening features
Howard HC, Cunningham WS, Genc A, Rhodes BE, Merle B, Rupert TJ, Gianola DS. (Submitted to Acta Materialia).
Human Perception-Inspired Grain Segmentation Refinement Using Conditional Random Fields
Aksoy D, Xin HL, Rupert TJ, Bowman WJ. (Submitted to Engineering Applications of Artificial Intelligence).
2025
110. Influence of non-glide stresses on {10-12} twin boundary migration in Mg
Yu K, Wang X, Mahajan S, Rupert TJ, Beyerlein IJ, Cao P, Schoenung JM, Lavernia EJ. Computational Materials Science, (2025) 246, 113414. [link]
2024
109. A Machine Learning Framework for the Prediction of Grain Boundary Segregation in Chemically Complex Environments
Aksoy D, Luo J, Cao P, Rupert TJ. Modelling and Simulation in Materials Science and Engineering, (2024) 32, 065011. [link]
108. Grain size dependent indentation response of single-phase (CoCuMgNiZn)O high entropy oxides
Cortez J, Dupuy AD, Vahidi H, Donaldson OK, Bowman WJ, Rupert TJ, Schoenung JM. Journal of the European Ceramic Society, (2024) 44, 116673. [link]
107. Frustrated metastable-to-equilibrium grain boundary structural transition in NbMoTaW due to segregation and chemical complexity
Geiger I, Apelian D, Pan X, Cao P, Luo J, Rupert TJ. Acta Materialia, (2024) 272, 119939. [link]
106. Tuning grain boundary cation segregation with oxygen deficiency and atomic structure in a perovskite compositionally complex oxide thin film
Guo H, Vahidi H, Kang H, Shah S, Xu M, Aoki T, Rupert TJ, Luo J, Gilliard-Abdul Aziz KL, Bowman WJ. Applied Physics Letters, (2024) 124, 171605. [link]
105. Neural Network Kinetics for Exploring Diffusion Multiplicity and Chemical Ordering in Compositionally Complex Materials
Xing B, Rupert TJ, Pan X, Cao P. Nature Communications, (2024) 15:3879. [link]
104. Strengthening from dislocation restructuring and local climb at platelet linear complexions in Al-Cu alloys
Garg P, Gianola DS, Rupert TJ. Journal of Materials Science: Materials Theory, (2024) 8, 9. [link]
103. Topology and evolution of dislocation structures mediated by glissile reactions in face-centered cubic metals
Wang F, Guo J, Weygand D, Wang F, Rupert TJ, Chen D, Gianola DS. Acta Materialia, (2024) 268, 119748. [link]
102. Enhanced radiation damage tolerance of amorphous interphase and grain boundary complexions in Cu-Ta
Aksoy D, Cao P, Trelewicz JR, Wharry JP, Rupert TJ. JOM, (2024) 76, 2870. [link]
101. Vacancy diffusion barrier spectrum and diffusion correlation in multicomponent alloys
Xing B, Zou W, Rupert TJ, Cao P. Acta Materialia, (2024) 266, 119653. [link]
100. Reversible Enhancement of Electronic Conduction caused by Phase Transformation and Interfacial Segregation in an Entropy Stabilized Oxide
Vahidi H, Dupuy AD, Lam BX, Cortez J, Garg P, Rupert TJ, Schoenung JM, Bowman WJ. Advanced Functional Materials, (2024) 2315895. [link]
99. Compositional inhomogeneity and its effect on the hardness of nanostructured refractory high-entropy alloys
Wang C, Qin M, Lei T, Wan L, Kisslinger K, Rupert TJ, Luo J, Xin HL. Materials Characterization, (2024) 207, 113563. [link]
98. Discovery of Ni activated sintering of MoNbTaW predicted by a computed grain boundary diagram
Shivakumar S, Song K, Wang C, Lei T, Xin HL, Rupert TJ, Luo J. Scripta Materialia, (2024) 239, 115777. [link]
2023
97. High-throughput assessment of the microstructural stability of segregation-engineered nanocrystalline Al-Ni-Y alloys
Cunningham WS, Shin J, Lei T, Rupert TJ, Gianola DS. Materialia, (2023) 32, 101940. [link]
96. Binary nanocrystalline alloys with strong glass forming interfacial regions: Complexion stability, segregation competition, and diffusion pathways
Lei T, Hessong EC, Gianola DS, Rupert TJ. Materials Characterization, (2023) 206, 113415. [link]
95. Dislocation breakaway from nanoparticle array linear complexions: Plasticity mechanisms and strength scaling laws
Singh D, Gianola DS, Rupert TJ. Materialia, (2023) 32, 101929. [link]
94. Local structural ordering determines the mechanical damage tolerance of amorphous grain boundary complexions
Garg P, Rupert TJ. Scripta Materialia, (2023) 237, 115712. [link]
93. Twin nucleation from disconnection-dense sites between stacking fault pairs in a random defect network
Yu K, Wang X, Mahajan S, Beyerlein IJ, Cao P, Rupert TJ, Schoenung JM, Lavernia EJ. Materialia, (2023) 30, 101835. [link]
92. Linear complexions directly modify dislocation motion in face-centered cubic alloys
Singh D, Turlo V, Gianola DS, Rupert TJ. Materials Science and Engineering A, (2023) 870, 144875. [link]
91. Strong and Ductile Refractory High-Entropy Alloys with Super Formability
Zhang C, Wang H, Wang X, Tang YT, Yu Q, Zhu C, Xu M, Zhao S, Kou R, Wang X, MacDonald BE, Reed RC, Vecchio KS, Cao P, Rupert TJ, Lavernia EJ. Acta Materialia, (2023) 245, 118602. [link]
90. Grain incompatibility determines the local structure of amorphous grain boundary complexions
Garg P, Rupert TJ. Acta Materialia, (2023) 244, 118599. [link]
89. Local hardening and asymmetric twin growth by twin-twin interactions in an Mg alloy
Yaddanapudi K, Wang J, Wang X, Arul Kumar M, Rupert TJ, Schoenung JM, Lavernia EJ, Beyerlein IJ, Mahajan S. Journal of Magnesium and Alloys, (2023) 11, 176. [link]
2022
88. Influence of chemistry and structure on interfacial segregation in NbMoTaW with high-throughput atomistic simulations
Geiger I, Luo J, Lavernia EJ, Cao P, Apelian D, Rupert TJ. Journal of Applied Physics, (2022) 132, 235301. [link]
87. Chemical order transitions within extended interfacial segregation zones in NbMoTaW
Aksoy D, McCarthy MJ, Geiger I, Apelian D, Hahn H, Lavernia EJ, Luo J, Xin H, Rupert TJ. Journal of Applied Physics, (2022) 132, 235302. [link]
86. Intermetallic particle heterogeneity controls shear localization in high-strength nanostructured Al alloys
Lei T, Hessong EC, Shin J, Gianola DS, Rupert TJ. Acta Materialia, (2022) 240, 118347. [link]
85. Optimizing thermal stability and mechanical behavior in segregation-engineered nanocrystalline Al–Ni–Ce alloys: A combinatorial study
Shin J, Wang F, Balbus GH, Lei T, Rupert TJ, Gianola DS. Journal of Materials Research, (2022) 37, 3083. [link]
84. Recent Progress in the CoCrNi Alloy System
Bajpai S, MacDonald BE, Rupert TJ, Hahn H, Lavernia EJ, Apelian D. Materialia, (2022) 24, 101476. [link]
83. Damage tolerance in additively manufactured ceramic architected materials
Thiraux R, Dupuy AD, Lei T, Rupert TJ, Mohraz A, Valdevit L. Journal of the European Ceramic Society, (2022) 42, 5893. [link]
82. Processing-Dependent Stabilization of a Dissimilar Rare-Earth Boride in High-Entropy (Ti0.2Zr0.2Hf0.2Ta0.2Er0.2)B2 with Enhanced Hardness and Grain Boundary Segregation
Qin M, Shivakumar S, Lei T, Gild J, Hessong EC, Wang H, Vecchio KS, Rupert TJ, Luo J. Journal of the European Ceramic Society, (2022) 42, 5164. [link]
81. Growth and structural transitions of core-shell nanorods in nanocrystalline Al-Ni-Y
Lei T, Xu M, Shin J, Gianola DS, Rupert TJ. Scripta Materialia, (2022) 211, 114502. [link]
80. Amorphous intergranular film effect on the texture and structural evolution during cold-rolling of nanocrystalline Ni-Zr alloys
Reddy KV, Rupert TJ, Pal S. Metallurgical and Materials Transactions A, (2022) 53, 1025. [link]
79. Multi-principal element grain boundaries: Stabilizing nanocrystalline grains with thick amorphous complexions
Grigorian CM, Rupert TJ. Journal of Materials Research, (2022) 37, 554. [link]
78. Room Temperature Deformation-induced Solute Segregation and its Impact on Twin Boundary Mobility in a Mg-Y Alloy
Wang X, Hu Y, Yu K, Mahajan S, Beyerlein IJ, Lavernia EJ, Rupert TJ, Schoenung JM. Scripta Materialia, (2022) 209, 114375. [link]
77. Visualization and Validation of Twin Nucleation and Early-Stage Growth in Magnesium
Jiang L, Gong M, Wang J, Pan Z, Wang X, Zhang D, Wang Y, Ciston J, Minor AM, Xu M, Pan X, Rupert TJ, Mahajan S, Lavernia EJ, Beyerlein IJ, Schoenung JM. Nature Communications, (2022) 13, 20. [link]
2021
76. Emergence of near-boundary segregation zones in face-centered cubic multi-principal element alloys
McCarthy MJ, Zheng H, Apelian D, Bowman WJ, Hahn H, Luo J, Ong SP, Pan X, Rupert TJ. Physical Review Materials, (2021) 5, 113601. [link]
75. Bulk nanocrystalline Al alloys with hierarchical reinforcement structures via grain boundary segregation and complexion formation
Lei T, Shin J, Gianola DS, Rupert TJ. Acta Materialia, (2021) 221, 117394. [link]
74. Microstructure, mechanical properties, and ionic conductivity of a solid-state electrolyte prepared using binderless laser powder bed fusion
Acord KA, Dupuy AD, Wang X, Vyatskikh AL, Donaldson OK, Rupert TJ, Wu JJ, Chen QN, Schoenung JM. Journal of Materials Research, (2021) 36, 4565. [link]
73. Segregation competition and complexion coexistence within a polycrystalline grain boundary network
Garg P, Pan Z, Turlo V, Rupert TJ. Acta Materialia, (2021) 218, 117213. [link]
72. Current trends in nanomechanical testing research
Merle B, Maier-Kiener V, Rupert TJ, Pharr GM. Journal of Materials Research, (2021) 36, 2133. [link]
71. Amorphous complexions alter the tensile failure of nanocrystalline Cu-Zr
Wardini JL, Grigorian CM, Rupert TJ. Materialia, (2021) 17, 101134. [link]
70. Bulk rare earth high-entropy hexaborides
Qin M, Yan Q, Liu Y, Wang H, Wang C, Lei T, Vecchio KS, Xin H, Rupert TJ, Luo J. Journal of the European Ceramic Society, (2021) 41, 5775. [link]
69. Disordered interfaces enable high temperature thermal stability and strength in a nanocrystalline aluminum alloy
Balbus GH, Kappacher J, Sprouster DJ, Wang F, Shin J, Eggeler YM, Rupert TJ, Trelewicz JR, Kiener D, Maier-Kiener V, Gianola DS. Acta Materialia, (2021) 215, 116973. [link]
68. Manipulating deformation mechanisms with Y alloying of Mg
Wang J, Wang X, Yu K, Rupert TJ, Mahajan S, Lavernia EJ, Schoenung JM, Beyerlein IJ. Materials Science and Engineering A, (2021) 817, 141373. [link]
67. Synergic grain boundary segregation and precipitation in W- and W-Mo-containing high-entropy borides
Wang C, Qin M, Lei T, Kisslinger K, Rupert TJ, Luo J, Xin H. Journal of the European Ceramic Society, (2021) 41, 5380. [link]
66. Critical cooling rates for amorphous-to-ordered complexion transitions in Cu-rich nanocrystalline alloys
Grigorian CM, Rupert TJ. Acta Materialia, (2021) 206, 116650. [link]
65. In situ mechanical testing of an Al matrix composite to investigate compressive plasticity and failure on multiple length scales
Lei T, Wardini JL, Donaldson OK, Rupert TJ. Journal of Materials Science, (2021) 56, 8259. [link]
64. Dislocation-induced Y segregation at basal-prismatic interfaces in Mg
Huang Z, Turlo V, Wang X, Chen F, Shen Q, Zhang L, Beyerlein IJ, Rupert TJ. Computational Materials Science, (2021) 188, 110241. [link]
63. Accommodation and formation of {-1012} twins in Mg-Y alloys
Yaddanapudi K, Leu B, Kumar MA, Wang X, Schoenung JM, Lavernia EJ, Rupert TJ, Beyerlein IJ, Mahajan S. Acta Materialia, (2021) 204, 116514. [link]
62. Alloying induces directionally-dependent mobility and alters migration mechanisms of faceted grain boundaries
McCarthy MJ, Rupert TJ. Scripta Materialia, (2021) 194, 113643. [link]
2020
61. Interdependent linear complexion structure and dislocation mechanics in Fe-Ni
Turlo V, Rupert TJ. Crystals, (2020) 10, 1128. [link]
60. Shuffling mode competition leads to directionally-anisotropic mobility of faceted Ʃ11 boundaries in face centered cubic metals
McCarthy MJ, Rupert TJ. Physical Review Materials, (2020) 4, 113402. [link]
59. Embracing the chaos: Alloying adds stochasticity to twin embryo growth
Hu Y, Turlo V, Beyerlein IJ, Lavernia EJ, Mahajan S, Schoenung JM, Rupert TJ. Physical Review Letters, (2020) 125, 205503. [link]
58. Influence and Comparison of Contamination Partitioning on Nanocrystalline Stability in Sputter Deposited and Ball Milled Cu-Zr Alloys
Zhou X, Schuler JD, Grigorian CM, Tweddle D, Rupert TJ, Li L, Thompson GB. Journal of Materials Science, (2020) 55, 16758. [link]
57. Revealing the deformation mechanisms for room-temperature compressive superplasticity in nanocrystalline magnesium
Wang X, Jiang L, Zhang D, Rupert TJ, Beyerlein IJ, Mahajan S, Lavernia EJ, Schoenung JM. Materialia, (2020) 11, 100731. [link]
56. Toughening Magnesium with Gradient Twin Meshes
Wang X, Jiang L, Cooper C, Yu K, Zhang D, Rupert TJ, Mahajan S, Beyerlein IJ, Lavernia EJ, Schoenung JM. Acta Materialia, (2020) 195, 468. [link]
55. Emergence of directionally-anisotropic mobility in a faceted Ʃ11 <110> tilt grain boundary in Cu
McCarthy MJ, Rupert TJ. Modelling and Simulation in Materials Science and Engineering, (2020) 28, 055008. [link]
54. Disconnection-mediated twin embryo growth in Mg
Hu Y, Turlo V, Beyerlein IJ, Lavernia EJ, Mahajan S, Schoenung JM, Rupert TJ. Acta Materialia, (2020) 194, 437. [link]
53. Solid-state dewetting instability in thermally-stable nanocrystalline binary alloys
Schuler JD, Copeland G, Hattar K, Rupert TJ, Briggs SA. Materialia, (2020) 9, 100618. [link]
52. Amorphous intergranular films mitigate radiation damage in nanocrystalline Cu-Zr
Schuler JD, Grigorian CM, Barr CM, Boyce BL, Hattar K, Rupert TJ. Acta Materialia, (2020) 186, 341. [link]
51. Grain Boundary Complexion Transitions
Cantwell PR, Frolov T, Rupert TJ, Krause AR, Marvel CJ, Rohrer GS, Rickman JM, Harmer MP. Annual Review of Materials Research, (2020) 50, 465. [link]
50. Prediction of a wide variety of linear complexions in face centered cubic alloys
Turlo V, Rupert TJ. Acta Materialia, (2020) 185, 129. [link]
2019
49. Thick amorphous complexion formation and extreme thermal stability in ternary nanocrystalline Cu-Zr-Hf alloys
Grigorian CM, Rupert TJ. Acta Materialia, (2019) 179, 172. [link]
48. Heavy Ion Irradiation Effects on GaN/AlGaN High Electron Mobility Transistor Failure at Off-state
Islam Z, Paoletta AL, Monterrosa A, Schuler JD, Rupert TJ, Hattar K, Glavin N, Haque A. Microelectronics Reliability, (2019) 102, 003493. [link]
47. Amorphous Intergranular Films Enable the Consolidation of Bulk Nanocrystalline Cu-Zr with Full Density
Donaldson OK, Rupert TJ. Advanced Engineering Materials, (2019) 21, 1900333. [link]
46. Twin formation from a twin boundary in Mg during in-situ nanomechanical testing
Jiang L, Kumar MA, Beyerlein IJ, Wang X, Zhang D, Wu C, Cooper C, Rupert TJ, Mahajan S, Lavernia EJ, Schoenung JM. Materials Science and Engineering A, (2019) 759, 142. [link]
45. Linear complexions: Metastable phase formation and coexistence at dislocations
Turlo V, Rupert TJ. Physical Review Letters, (2019) 122, 126102. [link]
44. In situ high-cycle fatigue reveals the importance of grain boundary structure in nanocrystalline Cu-Zr
Schuler JD, Barr CM, Heckman NM, Copeland G, Boyce BL, Hattar K, Rupert TJ. JOM, (2019) 71, 1221. [link]
43. Combined effects of metallic dopants and nonmetal impurities on grain boundary energy and strength
Huang Z, Chen F, Shen Q, Zhang L, Rupert TJ. Acta Materialia, (2019) 166, 113. [link]
42. Atomistic modeling of interfacial segregation and structural transitions in ternary alloys
Hu Y, Rupert TJ. Journal of Materials Science, (2019) 54, 3975. [link]
Finalist, Robert W. Cahn Best Paper Prize for the Journal of Materials Science (March 2019)
41. Pronounced grain boundary network evolution in nanocrystalline Cu subjected to large cyclic strains
Bober DB, LaGrange T, Kumar M, Rupert TJ. Journal of Materials Research, (2019) 34, 35. [link]
2018
40. Concurrent transitions in wear rate and surface microstructure in nanocrystalline Ni-W
Panzarino JF, Rupert TJ. Materialia, (2018) 4, 38. [link]
39. A high-entropy alloy with hierarchical nanoprecipitates and ultrahigh strength
Fu Z, Jiang L, Wardini JL, MacDonald BE, Wen H, Xiong W, Zhang D, Zhou Y, Rupert TJ, Chen W, Lavernia EJ. Science Advances, (2018) 4, eaat8712. [link]
38. Femtosecond laser rejuvenation of nanocrystalline metals
Balbus GH, Echlin MP, Grigorian CM, Rupert TJ, Pollock TM, Gianola DS. Acta Materialia, (2018) 156, 183. [link]
37. Amorphous complexions enable a new region of high temperature stability in nanocrystalline Ni-W
Schuler JD, Donaldson OK, Rupert TJ. Scripta Materialia, (2018) 154, 49. [link]
36. Dislocation-assisted linear complexion formation driven by segregation
Turlo V, Rupert TJ. Scripta Materialia, (2018) 154, 25. [link]
35. Grain boundary complexions and the strength of nanocrystalline metals: Dislocation emission and propagation
Turlo V, Rupert TJ. Acta Materialia, (2018) 151, 100. [link]
34. Identifying interatomic potentials for the accurate modeling of interfacial segregation and structural transitions
Hu Y, Schuler JD, Rupert TJ. Computational Materials Science, (2018) 148, 10. [link]
33. Uncovering the influence of common nonmetal impurities on the stability and strength of a Σ5 (310) grain boundary in Cu
Huang Z, Chen F, Shen Q, Zhang L, Rupert TJ. Acta Materialia, (2018) 148, 110. [link]
32. Reversed Compressive Yield Anisotropy in Magnesium with Microlaminated Structure
Wang X, Jiang L, Zhang D, Beyerlein IJ, Mahajan S, Rupert TJ, Lavernia EJ, Schoenung JM. Acta Materialia, (2018) 146, 12. [link]
2017
31. Materials selection rules for amorphous complexion formation in binary metallic alloys
Schuler JD, Rupert TJ. Acta Materialia, (2017) 140, 196. [link]
30. Forces to pierce cuticle of tarsi and material properties determined by nanoindentation: The Achilles’ heel of bed bugs
Bustamante J, Panzarino JF, Rupert TJ, Loudon C. Biology Open, (2017) 6, 1541. [link]
29. Mechanisms of near-surface structural evolution in nanocrystalline materials during sliding contact
Pan Z, Rupert TJ. Physical Review Materials, (2017) 1, 043602. [link]
28. Nanocrystalline Al-Mg with extreme strength due to grain boundary doping
Pun SC, Wang W, Khalajhedayati A, Schuler JD, Trelewicz JR, Rupert TJ. Materials Science and Engineering A, (2017) 696, 400. [link]
27. Effect of Growth Temperature on the Synthesis of Carbon Nanotube Arrays and Amorphous Carbon for Thermal Applications
Pham QN, Larkin LS, Lisboa CC, Saltonstall CB, Qiu L, Schuler JD, Rupert TJ, Norris PM. Physica Status Solidi A, (2017) 1600852. [link]
26. The formation and characterization of large twin related domains
Bober DB, Lind J, Mulay RP, Rupert TJ, Kumar M. Acta Materialia, (2017) 129, 500. [link]
25. Spatial variation of short-range order in amorphous intergranular complexions
Pan Z, Rupert TJ. Computational Materials Science, (2017) 131, 62. [link]
24. Formation of ordered and disordered interfacial films in immiscible metal alloys
Pan Z, Rupert TJ. Scripta Materialia, (2017) 130, 91. [link]
2016
23. Plasticity-induced restructuring of a nanocrystalline grain boundary network
Panzarino JF, Pan Z, Rupert TJ. Acta Materialia, (2016) 120, 1. [link]
22. The role of complexions in metallic nano-grain stability and deformation
Rupert TJ. Current Opinion in Solid State & Materials Science, (2016) 20, 257. [link]
21. Effect of grain boundary character on segregation-induced structural transitions
Pan Z, Rupert TJ. Physical Review B, (2016) 93, 134113. [link]
20. Manipulating the interfacial structure of nanomaterials to achieve a unique combination of strength and ductility
Khalajhedayati A, Pan Z, Rupert TJ. Nature Communications, (2016) 7, 10802. [link]
19. Grain boundary character distributions in nanocrystalline metals produced by different processing routes
Bober DB, Khalajhedayati A, Kumar M, Rupert TJ. Metallurgical and Materials Transactions A, (2016) 47, 1389. [link]
18. Amorphous intergranular films act as ultra-efficient point defect sinks during collision cascades
Ludy JE, Rupert TJ. Scripta Materialia (2016) 110, 37. [link]
2015
17. High-temperature stability and grain boundary complexion formation in a nanocrystalline Cu-Zr alloy
Khalajhedayati A, Rupert TJ. JOM, (2015) 67, 2788. [link]
16. Modelling wrinkling interactions produced by patterned defects in metal thin films
Flores-Johnson EA, Rupert TJ, Hemker KJ, Gianola DS, Gan Y. Extreme Mechanics Letters, (2015) 4, 175. [link]
15. Disruption of Thermally-Stable Nanoscale Grain Structures by Strain Localization
Khalajhedayati A, Rupert TJ. Scientific Reports, (2015) 5, 10663. [link]
14. Amorphous intergranular films as toughening structural features
Pan Z, Rupert TJ. Acta Materialia, (2015) 89, 205. [link]
13. Quantitative tracking of grain structure evolution in a nanocrystalline metal during cyclic loading
Panzarino JF, Ramos JJ, Rupert TJ. Modelling and Simulation in Materials Science and Engineering, (2015) 23, 025005. [link]
12. Nanocrystalline grain boundary engineering: Increasing Σ3 boundary fraction in pure Ni using collective deformation physics
Bober DB, Kumar M, Rupert TJ. Acta Materialia, (2015) 86, 43. [link]
2014
11. Damage nucleation from repeated dislocation absorption at a grain boundary
Pan Z, Rupert TJ. Computational Materials Science, (2014) 93, 206. [link]
10. Solid solution strengthening and softening due to collective nanocrystalline deformation physics
Rupert TJ. Scripta Materialia, (2014) 81, 44. [link]
9. Tracking Microstructure of Crystalline Materials: A Post-Processing Algorithm for Atomistic Simulations
Panzarino JF, Rupert TJ. JOM, (2014) 66, 417. [link]
8. Emergence of localized plasticity and failure through shear banding during microcompression of a nanocrystalline alloy
Khalajhedayati A, Rupert TJ. Acta Materialia, (2014) 65, 326. [link]
2013
7. Strain localization in a nanocrystalline metal: Atomistic mechanisms and the effect of testing conditions
Rupert TJ. Journal of Applied Physics, (2013) 114, 033527. [link]
6. Abrasive wear response of nanocrystalline Ni-W alloys across the Hall-Petch breakdown
Rupert TJ, Cai W, Schuh CA., Wear, (2013) 298-299, 120. [link]
2012
5. Grain boundary relaxation strengthening of nanocrystalline Ni-W alloys
Rupert TJ, Trelewicz JT, Schuh CA. Journal of Materials Research, (2012) 27, 1285. [link]
4. Mechanically-driven grain boundary relaxation: a mechanism for cyclic hardening in nanocrystalline Ni
Rupert TJ, Schuh CA. Philosophical Magazine Letters, (2012) 92, 20. [link]
2009 – 2011
3. Enhanced solid solution effects on the strength of nanocrystalline alloys
Rupert TJ, Trenkle JC, Schuh CA. Acta Materialia, (2011) 59, 1619. [link]
2. Sliding wear of nanocrystalline Ni–W: Structural evolution and the apparent breakdown of Archard scaling
Rupert TJ, Schuh CA. Acta Materialia, (2010) 58, 4137. [link]
1. Experimental Observations of Stress-Driven Grain Boundary Migration
Rupert TJ, Gianola DS, Gan Y, Hemker KJ. Science, (2009) 326, 1686. [link]
Conference Proceedings
Rejuvenation of Disorder-Containing Materials
Balbus GH, Echlin MP, Grigorian CM, Rupert TJ, Pollock TM, Gianola DS. ICTAEM 2018: Proceedings of the First International Conference on Theoretical, Applied and Experimental Mechanics, (2018). [link]
SU8 Derived Glassy Carbon for Lithium Ion Batteries
Sharma S, Khalajhedayati A, Rupert TJ, Madou MJ. Electrochemical Society (ECS) Transactions, (2014). [link]
Ceramic and Hybrid Micro-architected Materials for High Temperature Applications
Moodie ALR, Angle JP, Tackett EC, Rupert TJ, Mecartney ML, Valdevit L. Society for the Advancement of Material and Process Engineering (SAMPE) Proceedings, (2013).