Showing 50 publications by Emilio Martínez-Pañeda
On the role of crack electrolyte wetting in the degradation and performance of battery active particles
Luza-Vega S, Zhao Y & MARTINEZ-PANEDA E (2026), Journal of Power Sources, 682, 240307-240307
BibTeX
@article{ontheroleofcrac-2026/8,
title={On the role of crack electrolyte wetting in the degradation and performance of battery active particles},
author={Luza-Vega S, Zhao Y & MARTINEZ-PANEDA E},
journal={Journal of Power Sources},
volume={682},
number={240307},
pages={240307-240307},
publisher={Elsevier},
year = "2026"
}
Can dents and gouges compromise the structural integrity of hydrogen transport pipelines?
Das R, Bezensek B & MARTINEZ-PANEDA E (2026), International Journal of Hydrogen Energy, 246, 155780-155780
BibTeX
@article{candentsandgoug-2026/6,
title={Can dents and gouges compromise the structural integrity of hydrogen transport pipelines?},
author={Das R, Bezensek B & MARTINEZ-PANEDA E},
journal={International Journal of Hydrogen Energy},
volume={246},
number={155780},
pages={155780-155780},
publisher={Elsevier},
year = "2026"
}
Cryogenic hydrogen embrittlement of 316plus (EN 1.4420) stainless steel at 77 K and 20 K
Li W, Zafra A, Armendariz L, Wang Z, Bailey W et al. (2026), International Journal of Hydrogen Energy, 233, 154974-154974
BibTeX
@article{cryogenichydrog-2026/5,
title={Cryogenic hydrogen embrittlement of 316plus (EN 1.4420) stainless steel at 77 K and 20 K},
author={Li W, Zafra A, Armendariz L, Wang Z, Bailey W et al.},
journal={International Journal of Hydrogen Energy},
volume={233},
number={154974},
pages={154974-154974},
publisher={Elsevier},
year = "2026"
}
A computational framework to predict the spreading of Alzheimer's disease.
Vazquez-Palomo A, Betegón C, Weickenmeier J & MARTINEZ-PANEDA E (2026), Engineering with computers, 42(2), 78-78
A computational framework to predict the spreading of Alzheimer’s disease
Vazquez-Palomo A, Betegón C, Weickenmeier J & Martínez-Pañeda E (2026), Engineering with Computers, 42(2)
A computational framework to predict the spreading of Alzheimer's disease
Vazquez-Palomo A, Betegón C, Weickenmeier J & Martínez-Pañeda E (2026)
BibTeX
@misc{acomputationalf-2026/3,
title={A computational framework to predict the spreading of Alzheimer's disease},
author={Vazquez-Palomo A, Betegón C, Weickenmeier J & Martínez-Pañeda E},
year = "2026"
}
Coupled thermo-chemo-mechanical phase field-based modelling of hydrogen-assisted cracking in girth welds
Castro L, Navidtehrani Y, Betegón C & MARTINEZ-PANEDA E (2026), International Journal of Mechanical Sciences, 311, 111172-111172
BibTeX
@article{coupledthermoch-2026/2,
title={Coupled thermo-chemo-mechanical phase field-based modelling of hydrogen-assisted cracking in girth welds},
author={Castro L, Navidtehrani Y, Betegón C & MARTINEZ-PANEDA E},
journal={International Journal of Mechanical Sciences},
volume={311},
number={111172},
pages={111172-111172},
publisher={Elsevier},
year = "2026"
}
Phase field modelling of cracking and capacity fade in core-shell cathode particles for lithium-ion batteries
Tu Y, Wu B & MARTINEZ-PANEDA E (2026), Applied Energy, 403, 127105-127105
BibTeX
@article{phasefieldmodel-2026/1,
title={Phase field modelling of cracking and capacity fade in core-shell cathode particles for lithium-ion batteries},
author={Tu Y, Wu B & MARTINEZ-PANEDA E},
journal={Applied Energy},
volume={403},
number={127105},
pages={127105-127105},
publisher={Elsevier},
year = "2026"
}
3D atomistic imaging of polymer nanocomposites with Atom Probe Tomography: experimental methodology, preliminary results and future outlook
Douglas JO, Salehiyan R, Saksena A, Schwarz TM, Gault B et al. (2026)
BibTeX
@misc{datomisticimagi-2026/1,
title={3D atomistic imaging of polymer nanocomposites with Atom Probe Tomography: experimental methodology, preliminary results and future outlook},
author={Douglas JO, Salehiyan R, Saksena A, Schwarz TM, Gault B et al.},
year = "2026"
}
Coupled thermo-chemo-mechanical phase field-based modelling of hydrogen-assisted cracking in girth welds
Castro L, Betegón YNC & Martínez-Pañeda E (2026)
New insights into hydrogen-assisted intergranular cracking in nickel
Quan S, Zafra A, MARTINEZ-PANEDA E, Wu C, Harris ZD et al. (2025), Materials Science & Engineering: A, 950, 149545-149545
BibTeX
@article{newinsightsinto-2025/12,
title={New insights into hydrogen-assisted intergranular cracking in nickel},
author={Quan S, Zafra A, MARTINEZ-PANEDA E, Wu C, Harris ZD et al.},
journal={Materials Science & Engineering: A},
volume={950},
pages={149545-149545},
publisher={Elsevier},
year = "2025"
}
New insights into hydrogen-assisted intergranular cracking in nickel
Quan S, Zafra A, Martínez-Pañeda E, Wu C, Harris ZD et al. (2025)
Deuterium ion implantation of Eurofer with a new pulsed DC plasma source
Pittard J, Smith J, ZAFRA A, MARTINEZ-PANEDA E & Fox N (2025), Fusion Engineering and Design, 220, 115321-115321
BibTeX
@article{deuteriumionimp-2025/11,
title={Deuterium ion implantation of Eurofer with a new pulsed DC plasma source},
author={Pittard J, Smith J, ZAFRA A, MARTINEZ-PANEDA E & Fox N},
journal={Fusion Engineering and Design},
volume={220},
number={115321},
pages={115321-115321},
publisher={Elsevier},
year = "2025"
}
Tailored heat treatments to characterise the fracture resistance of critical weld regions in hydrogen transmission pipelines
Chalfoun DR, Parker J, Gagliano M & MARTINEZ-PANEDA E (2025), International Journal of Hydrogen Energy, 192, 152347-152347
BibTeX
@article{tailoredheattre-2025/11,
title={Tailored heat treatments to characterise the fracture resistance of critical weld regions in hydrogen transmission pipelines},
author={Chalfoun DR, Parker J, Gagliano M & MARTINEZ-PANEDA E},
journal={International Journal of Hydrogen Energy},
volume={192},
number={152347},
pages={152347-152347},
publisher={Elsevier},
year = "2025"
}
Phase field modelling of cracking and capacity fade in core-shell cathode particles for lithium-ion batteries
Tu Y, Wu B & Martínez-Pañeda E (2025)
Tailored heat treatments to characterise the fracture resistance of critical weld regions in hydrogen transmission pipelines
Chalfoun DR, Parker J, Gagliano M & Martínez-Pañeda E (2025)
Strong hydrogen trapping by tangled dislocations in cold-drawn pearlitic steels
Huang C, CUI C, Niu R, Lu F, Wu C-Y et al. (2025), Acta Materialia, 296, 121231-121231
BibTeX
@article{stronghydrogent-2025/9,
title={Strong hydrogen trapping by tangled dislocations in cold-drawn pearlitic steels},
author={Huang C, CUI C, Niu R, Lu F, Wu C-Y et al.},
journal={Acta Materialia},
volume={296},
number={121231},
pages={121231-121231},
publisher={Elsevier},
year = "2025"
}
A phase field model for hydraulic fracture: Drucker–Prager driving force and a hybrid coupling strategy
Navidtehrani Y, Betegón C, Vallejos J & MARTINEZ-PANEDA E (2025), Computer Methods in Applied Mechanics and Engineering, 444, 118155-118155
BibTeX
@article{aphasefieldmode-2025/9,
title={A phase field model for hydraulic fracture: Drucker–Prager driving force and a hybrid coupling strategy},
author={Navidtehrani Y, Betegón C, Vallejos J & MARTINEZ-PANEDA E},
journal={Computer Methods in Applied Mechanics and Engineering},
volume={444},
number={118155},
pages={118155-118155},
publisher={Elsevier},
year = "2025"
}
A generalised framework for phase field-based modelling of coupled problems: Application to thermo-mechanical fracture, hydraulic fracture, hydrogen embrittlement and corrosion
Navidtehrani Y, Betegón C & MARTINEZ-PANEDA E (2025), Engineering Fracture Mechanics, 326, 111363-111363
BibTeX
@article{ageneralisedfra-2025/9,
title={A generalised framework for phase field-based modelling of coupled problems: Application to thermo-mechanical fracture, hydraulic fracture, hydrogen embrittlement and corrosion},
author={Navidtehrani Y, Betegón C & MARTINEZ-PANEDA E},
journal={Engineering Fracture Mechanics},
volume={326},
number={111363},
pages={111363-111363},
publisher={Elsevier},
year = "2025"
}
Understanding the oxidation of pure tungsten in air and its impact on the lifecycle of a fusion power plant
Li R, Álvarez G, Ipakchi A, Cupertino-Malheiros L, Gilbert MR et al. (2025), Nuclear Materials and Energy, 101988-101988
BibTeX
@article{understandingth-2025/9,
title={Understanding the oxidation of pure tungsten in air and its impact on the lifecycle of a fusion power plant},
author={Li R, Álvarez G, Ipakchi A, Cupertino-Malheiros L, Gilbert MR et al.},
journal={Nuclear Materials and Energy},
number={101988},
pages={101988-101988},
publisher={Elsevier},
year = "2025"
}
Understanding the oxidation of pure Tungsten in air and its impact on the lifecycle of a fusion power plant
Li R, Álvarez G, Ipakchi A, Cupertino-Malheiros L, Gilbert MR et al. (2025)
A neural network machine-learning approach for characterising hydrogen trapping parameters from TDS experiments
Marrani N, Hageman T & Martínez-Pañeda E (2025), International Journal of Hydrogen Energy, 167
BibTeX
@article{aneuralnetworkm-2025/8,
title={A neural network machine-learning approach for characterising hydrogen trapping parameters from TDS experiments},
author={Marrani N, Hageman T & Martínez-Pañeda E},
journal={International Journal of Hydrogen Energy},
volume={167},
number={150874},
publisher={Elsevier},
year = "2025"
}
A neural network machine-learning approach for characterising hydrogen trapping parameters from TDS experiments
Marrani N, Hageman T & Martínez-Pañeda E (2025)
Virtual failure assessment diagrams for hydrogen transmission pipelines
WIJNEN J, Parker J, Gagliano M & MARTINEZ-PANEDA E (2025), International Journal of Hydrogen Energy, 149, 149984-149984
BibTeX
@article{virtualfailurea-2025/7,
title={Virtual failure assessment diagrams for hydrogen transmission pipelines},
author={WIJNEN J, Parker J, Gagliano M & MARTINEZ-PANEDA E},
journal={International Journal of Hydrogen Energy},
volume={149},
number={149984},
pages={149984-149984},
publisher={Elsevier},
year = "2025"
}
Pull-off strength of mushroom-shaped fibrils adhered to rigid substrates
Betegón C, Rodríguez C, MARTINEZ-PANEDA E & McMeeking R (2025), The Journal of Adhesion, 102(3), 201-232
Computational predictions of weld structural integrity in hydrogen transport pipelines
Mandal TK, Parker J, Gagliano M & MARTINEZ-PANEDA E (2025), International Journal of Hydrogen Energy, 136, 923-937
BibTeX
@article{computationalpr-2025/6,
title={Computational predictions of weld structural integrity in hydrogen transport pipelines},
author={Mandal TK, Parker J, Gagliano M & MARTINEZ-PANEDA E},
journal={International Journal of Hydrogen Energy},
volume={136},
pages={923-937},
publisher={Elsevier BV},
year = "2025"
}
A mesoscale phase-field model of intergranular liquid lithium corrosion of ferritic/martensitic steels
Lhoest A, Kovacevic S, Nguyen-Manh D, Lim J, Martínez-Pañeda E et al. (2025)
BibTeX
@misc{amesoscalephase-2025/6,
title={A mesoscale phase-field model of intergranular liquid lithium corrosion of ferritic/martensitic steels},
author={Lhoest A, Kovacevic S, Nguyen-Manh D, Lim J, Martínez-Pañeda E et al.},
year = "2025"
}
On the fracture mechanics validity of small scale tests
Cui C, Cupertino-Malheiros L, Xiong Z & Martínez-Pañeda E (2025)
BibTeX
@misc{onthefractureme-2025/6,
title={On the fracture mechanics validity of small scale tests},
author={Cui C, Cupertino-Malheiros L, Xiong Z & Martínez-Pañeda E},
year = "2025"
}
On the fracture mechanics validity of small scale tests
Cui C, Cupertino-Malheiros L, Xiong Z & MARTINEZ-PANEDA E (2025), Engineering Fracture Mechanics, 325, 111321-111321
BibTeX
@article{onthefractureme-2025/6,
title={On the fracture mechanics validity of small scale tests},
author={Cui C, Cupertino-Malheiros L, Xiong Z & MARTINEZ-PANEDA E},
journal={Engineering Fracture Mechanics},
volume={325},
number={111321},
pages={111321-111321},
publisher={Elsevier},
year = "2025"
}
A mesoscale phase-field model of intergranular liquid lithium corrosion of ferritic/martensitic steels.
Lhoest A, Kovacevic S, Nguyen-Manh D, Lim J, MARTINEZ-PANEDA E et al. (2025), npj Materials Degradation, 9(1), 68-68
BibTeX
@article{amesoscalephase-2025/6,
title={A mesoscale phase-field model of intergranular liquid lithium corrosion of ferritic/martensitic steels.},
author={Lhoest A, Kovacevic S, Nguyen-Manh D, Lim J, MARTINEZ-PANEDA E et al.},
journal={npj Materials Degradation},
volume={9},
number={ARTN 68},
pages={68-68},
publisher={Nature Research (part of Springer Nature)},
year = "2025"
}
Pull-off strength of mushroom-shaped fibrils adhered to rigid substrates
Betegón C, Rodríguez C, Martínez-Pañeda E & McMeeking RM (2025)
A generalised framework for phase field-based modelling of coupled problems: application to thermo-mechanical fracture, hydraulic fracture, hydrogen embrittlement and corrosion
Navidtehrani Y, Betegón C & Martínez-Pañeda E (2025)
Virtual failure assessment diagrams for hydrogen transmission pipelines
Wijnen J, Parker J, Gagliano M & Martínez-Pañeda E (2025)
A phase field model for hydraulic fracture: Drucker-Prager driving force and a hybrid coupling strategy
Navidtehrani Y, Betegón C, Vallejos J & Martínez-Pañeda E (2025)
A COMSOL framework for predicting hydrogen embrittlement, Part II: Phase field fracture
Díaz A, Alegre JM, Cuesta II & MARTINEZ-PANEDA E (2025), Engineering Fracture Mechanics, 319, 111008-111008
BibTeX
@article{acomsolframewor-2025/5,
title={A COMSOL framework for predicting hydrogen embrittlement, Part II: Phase field fracture},
author={Díaz A, Alegre JM, Cuesta II & MARTINEZ-PANEDA E},
journal={Engineering Fracture Mechanics},
volume={319},
number={111008},
pages={111008-111008},
publisher={Elsevier},
year = "2025"
}
RAAC panels can suddenly collapse before any warning of corrosion-induced surface cracking
KOREC E, Grassl P, Jirásek M, Wong HS & MARTINEZ-PANEDA E (2025), npj Materials Degradation, 9(1)
BibTeX
@article{raacpanelscansu-2025/5,
title={RAAC panels can suddenly collapse before any warning of corrosion-induced surface cracking},
author={KOREC E, Grassl P, Jirásek M, Wong HS & MARTINEZ-PANEDA E},
journal={npj Materials Degradation},
volume={9},
number={44},
publisher={Nature Research (part of Springer Nature)},
year = "2025"
}
RAAC panels can suddenly collapse before any warning of corrosion-induced surface cracking
Korec E, Grassl P, Jirasek M, Wong HS & Martínez-Pañeda E (2025)
A computational framework for predicting the effect of surface roughness in fatigue
Jiménez-Alfaro S & Martínez-Pañeda E (2025)
A computational framework for predicting the effect of surface roughness in fatigue
Jiménez-Alfaro S & MARTINEZ-PANEDA E (2025), International Journal of Fatigue, 199, 109044-109044
BibTeX
@article{acomputationalf-2025/5,
title={A computational framework for predicting the effect of surface roughness in fatigue},
author={Jiménez-Alfaro S & MARTINEZ-PANEDA E},
journal={International Journal of Fatigue},
volume={199},
number={109044},
pages={109044-109044},
publisher={Elsevier},
year = "2025"
}
Corrosion of metal reinforcements within concrete and localisation of supporting reactions under natural conditions
Hageman T, Andrade C & Martínez-Pañeda E (2025)
Impact of pH and chloride content on the biodegradation of magnesium alloys for medical implants: An in vitro and phase-field study.
Kovacevic S, Ali W, Mandal TK, MARTINEZ-PANEDA E & LLorca J (2025), Acta biomaterialia, 198, 546-565
BibTeX
@article{impactofphandch-2025/4,
title={Impact of pH and chloride content on the biodegradation of magnesium alloys for medical implants: An in vitro and phase-field study.},
author={Kovacevic S, Ali W, Mandal TK, MARTINEZ-PANEDA E & LLorca J},
journal={Acta biomaterialia},
volume={198},
pages={546-565},
publisher={Elsevier BV},
year = "2025"
}
Corrosion of metal reinforcements within concrete and localisation of supporting reactions under natural conditions
Hageman T, Andrade C & MARTINEZ-PANEDA E (2025), Electrochimica Acta, 146203-146203
BibTeX
@article{corrosionofmeta-2025/4,
title={Corrosion of metal reinforcements within concrete and localisation of supporting reactions under natural conditions},
author={Hageman T, Andrade C & MARTINEZ-PANEDA E},
journal={Electrochimica Acta},
pages={146203-146203},
publisher={Elsevier},
year = "2025"
}
A COMSOL framework for predicting hydrogen embrittlement -- Part II: phase field fracture
Díaz A, Alegre JM, Cuesta II & Martínez-Pañeda E (2025)
BibTeX
@misc{acomsolframewor-2025/3,
title={A COMSOL framework for predicting hydrogen embrittlement -- Part II: phase field fracture},
author={Díaz A, Alegre JM, Cuesta II & Martínez-Pañeda E},
year = "2025"
}
A COMSOL framework for predicting hydrogen embrittlement -- Part I: coupled hydrogen transport
Díaz A, Alegre JM, Cuesta II & Martínez-Pañeda E (2025)
BibTeX
@misc{acomsolframewor-2025/3,
title={A COMSOL framework for predicting hydrogen embrittlement -- Part I: coupled hydrogen transport},
author={Díaz A, Alegre JM, Cuesta II & Martínez-Pañeda E},
year = "2025"
}
A COMSOL framework for predicting hydrogen embrittlement, part I: coupled hydrogen transport
Díaz A, Alegre JM, Cuesta II & Martinez-Paneda E (2025), Engineering Fracture Mechanics, 319
BibTeX
@article{acomsolframewor-2025/3,
title={A COMSOL framework for predicting hydrogen embrittlement, part I: coupled hydrogen transport},
author={Díaz A, Alegre JM, Cuesta II & Martinez-Paneda E},
journal={Engineering Fracture Mechanics},
volume={319},
number={111007},
publisher={Elsevier},
year = "2025"
}
Impact of pH and chloride content on the biodegradation of magnesium alloys for medical implants: An in vitro and phase-field study
Kovacevic S, Ali W, Mandal TK, Martínez-Pañeda E & Llorca J (2025)
Modeling ice cliff stability using a new Mohr-Coulomb-based phase field fracture model
Clayton T, Duddu R, Hageman T & Martínez-Pañeda E (2025)
Modeling ice cliff stability using a new Mohr-Coulomb-based phase field fracture model
Clayton T, Duddu R, Hageman T & MARTINEZ-PANEDA E (2025), Journal of Glaciology, 71(e70), 1-14
BibTeX
@article{modelingiceclif-2025/3,
title={Modeling ice cliff stability using a new Mohr-Coulomb-based phase field fracture model},
author={Clayton T, Duddu R, Hageman T & MARTINEZ-PANEDA E},
journal={Journal of Glaciology},
volume={71},
pages={1-14},
publisher={Cambridge University Press (CUP)},
year = "2025"
}
In-silico platform for the multifunctional design of 3D printed conductive components
Crespo-Miguel J, Lucarini S, Garzon-Hernandez S, Arias A, MARTINEZ-PANEDA E et al. (2025), Nature Communications, 16(1)
BibTeX
@article{insilicoplatfor-2025/2,
title={In-silico platform for the multifunctional design of 3D printed conductive components},
author={Crespo-Miguel J, Lucarini S, Garzon-Hernandez S, Arias A, MARTINEZ-PANEDA E et al.},
journal={Nature Communications},
volume={16},
number={1359},
publisher={Nature Research (part of Springer Nature)},
year = "2025"
}
A computational framework to predict weld integrity and microstructural heterogeneity: Application to hydrogen transmission
WIJNEN J, Parker J, Gagliano M & MARTINEZ-PANEDA E (2025), Materials and Design, 249, 113533-113533
BibTeX
@article{acomputationalf-2025/1,
title={A computational framework to predict weld integrity and microstructural heterogeneity: Application to hydrogen transmission},
author={WIJNEN J, Parker J, Gagliano M & MARTINEZ-PANEDA E},
journal={Materials and Design},
volume={249},
number={113533},
pages={113533-113533},
publisher={Elsevier},
year = "2025"
}