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A review on modeling of electro-chemo-mechanics in lithium-ion batteries
Investigations on the fast capacity loss of Lithium-ion batteries (LIBs) have highlighted a rich
field of mechanical phenomena occurring during charging/discharging cycles, to name only …
field of mechanical phenomena occurring during charging/discharging cycles, to name only …
[HTML][HTML] Review on the numerical modeling of fracture in active materials for lithium ion batteries
Lithium ion batteries are one of the most widespread energy storage systems, but they still
suffer some weak points, such as safety, limited energy density, and cycle life. The latter is …
suffer some weak points, such as safety, limited energy density, and cycle life. The latter is …
[HTML][HTML] Cracking predictions of lithium-ion battery electrodes by X-ray computed tomography and modelling
Fracture of lithium-ion battery electrodes is found to contribute to capacity fade and reduce
the lifespan of a battery. Traditional fracture models for batteries are restricted to …
the lifespan of a battery. Traditional fracture models for batteries are restricted to …
A thermo-mechanical phase-field fracture model: Application to hot cracking simulations in additive manufacturing
Thermal fracture is prevalent in many engineering problems and is one of the most
devastating defects in metal additive manufacturing. Due to the interactive underlying …
devastating defects in metal additive manufacturing. Due to the interactive underlying …
Chemo-mechanical modeling of inter-and intra-granular fracture in heterogeneous cathode with polycrystalline particles for lithium-ion battery
Evolution of complex fracture patterns during electrochemical cycling for the polycrystalline
particulate cathode of lithium-ion batteries is found to be a primary reason towards capacity …
particulate cathode of lithium-ion batteries is found to be a primary reason towards capacity …
Direct observations of electrochemically induced intergranular cracking in polycrystalline NMC811 particles
Establishing the nature of crack generation, formation, and propagation is paramount to
understanding the degradation modes that govern decline in battery performance. Cracking …
understanding the degradation modes that govern decline in battery performance. Cracking …
Electro‐Chemo‐Mechanical Degradation in Solid‐State Batteries: A Review of Microscale and Multiphysics Modeling
Solid‐state batteries with lithium‐metal anodes have emerged as a promising alternative to
traditional lithium‐ion batteries thanks to their enhanced energy density and safety …
traditional lithium‐ion batteries thanks to their enhanced energy density and safety …
A consistent framework for chemo-mechanical cohesive fracture and its application in solid-state batteries
Damage and fracture can be induced not only by mechanical loading but also due to
chemical interactions within a solid. On one hand, species concentration may embrittle or …
chemical interactions within a solid. On one hand, species concentration may embrittle or …
Simulation of crack behavior of secondary particles in Li-ion battery electrodes during lithiation/de-lithiation cycles
The loss of connectivity in particle-based LiMO 2 (M= Ni, Co, Al, and/or Mn) electrodes due
to mechanical failure and fracture at the interface between primary particles is one of the …
to mechanical failure and fracture at the interface between primary particles is one of the …
A cohesive phase-field fracture model for chemo-mechanical environments: Studies on degradation in battery materials
In the context of computational modeling of fracture in chemo-mechanical environments,
physically-sound and strong coupling between different fields is essential. Furthermore, our …
physically-sound and strong coupling between different fields is essential. Furthermore, our …