Superplasticity in Ti–6Al–4V: Characterisation, modelling and applications E Alabort, D Putman, RC Reed Acta Materialia 95, 428-442, 2015 | 249 | 2015 |
Synthetic bone: Design by additive manufacturing D Barba, E Alabort, RC Reed Acta biomaterialia 97, 637-656, 2019 | 239 | 2019 |
On the mechanisms of superplasticity in Ti–6Al–4V E Alabort, P Kontis, D Barba, K Dragnevski, RC Reed Acta Materialia 105, 449-463, 2016 | 212 | 2016 |
Design of metallic bone by additive manufacturing E Alabort, D Barba, RC Reed Scripta Materialia 164, 110-114, 2019 | 188 | 2019 |
On the microtwinning mechanism in a single crystal superalloy D Barba, E Alabort, S Pedrazzini, DM Collins, AJ Wilkinson, PAJ Bagot, ... Acta Materialia 135, 314-329, 2017 | 149 | 2017 |
On the size and orientation effect in additive manufactured Ti-6Al-4V D Barba, C Alabort, YT Tang, MJ Viscasillas, RC Reed, E Alabort Materials & Design 186, 108235, 2020 | 137 | 2020 |
On the role of boron on improving ductility in a new polycrystalline superalloy P Kontis, E Alabort, D Barba, DM Collins, AJ Wilkinson, RC Reed Acta Materialia 124, 489-500, 2017 | 112 | 2017 |
Alloys-by-design: application to titanium alloys for optimal superplasticity E Alabort, D Barba, MR Shagiev, MA Murzinova, RM Galeyev, ... Acta Materialia 178, 275-287, 2019 | 99 | 2019 |
Alloys-by-design: A low-modulus titanium alloy for additively manufactured biomedical implants E Alabort, YT Tang, D Barba, RC Reed Acta Materialia 229, 117749, 2022 | 67 | 2022 |
Grain boundary properties of a nickel-based superalloy: characterisation and modelling E Alabort, D Barba, S Sulzer, M Lißner, N Petrinic, RC Reed Acta Materialia 151, 377-394, 2018 | 60 | 2018 |
A novel low-modulus titanium alloy for biomedical applications: a comparison between selective laser melting and metal injection moulding C Suwanpreecha, E Alabort, YT Tang, C Panwisawas, RC Reed, ... Materials Science and Engineering: A 812, 141081, 2021 | 41 | 2021 |
Time-resolved synchrotron diffractometry of phase transformations in high strength nickel-based superalloys DM Collins, DJ Crudden, E Alabort, T Connolley, RC Reed Acta Materialia 94, 244-256, 2015 | 41 | 2015 |
Experimental characterisation and numerical modelling of the influence of bondline thickness, loading rate, and deformation mode on the response of ductile adhesive interfaces M Lissner, E Alabort, H Cui, R Rito, BRK Blackman, N Petrinic Journal of the Mechanics and Physics of Solids 130, 349-369, 2019 | 39 | 2019 |
A thermodynamically consistent constitutive model for diffusion-assisted plasticity in Ni-based superalloys D Barba, E Alabort, D Garcia-Gonzalez, JJ Moverare, RC Reed, ... International Journal of Plasticity 105, 74-98, 2018 | 35 | 2018 |
In-situ high-temperature tensile testing of a polycrystalline nickel-based superalloy WD Summers, E Alabort, P Kontis, F Hofmann, RC Reed Materials at High Temperatures 33 (4-5), 338-345, 2016 | 33 | 2016 |
On the dynamic response of adhesively bonded structures M Lißner, E Alabort, B Erice, H Cui, BRK Blackman, N Petrinic International Journal of Impact Engineering 138, 103479, 2020 | 32 | 2020 |
Combined modelling and miniaturised characterisation of high-temperature forging in a nickel-based superalloy E Alabort, RC Reed, D Barba Materials & Design 160, 683-697, 2018 | 27 | 2018 |
On the rate dependent behaviour of epoxy adhesive joints: experimental characterisation and modelling of mode I failure M Lißner, E Alabort, H Cui, A Pellegrino, N Petrinic Composite Structures, 2018 | 27 | 2018 |
On the Rapid Assessment of Mechanical Behavior of a Prototype Nickel-Based Superalloy using Small-Scale Testing S Sulzer, E Alabort, A Németh, B Roebuck, R Reed Metallurgical and Materials Transactions A, 1-22, 2018 | 26 | 2018 |
Comparison of Selective Laser Melted Commercially Pure Titanium Sheet‐Based Triply Periodic Minimal Surfaces and Trabecular‐Like Strut‐Based Scaffolds for Tissue Engineering C Torres-Sanchez, JM Borgman, B Sargeant, H Bell, E Alabort, C Lindsay, ... Advanced Engineering Materials 24 (1), 2100527, 2022 | 18 | 2022 |