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Improved diffusion and storage of lithium ions via recrystallization …

Improved diffusion and storage of lithium ions via recrystallization induced conducting pathways in ... Xu X K and Gao X D 2017 Large-scale multifunctional electrochromic-energy storage device based on tungsten trioxide monohydrate nanosheets and prussian 9 ...

Rates of Dynamic Recrystallization in Geologic Materials

Dynamic recrystallization and recovery are fundamental processes in the crystal plastic deformation of rocks and minerals, whereby the elastic strain energy associated with linear lattice defects (i.e., dislocations) is minimized by the reorganization of …

Nanotwinning-assisted recrystallization

Dynamic recrystallization helps to refine grain structures in metals and tune their properties. Confining recrystallization within prior nanoscale twinning provides a …

Microstructure evolution of 7085 aluminum alloy with different initial deformation energy storage …

Moreover, for the extruded alloy with low stored energy, the slow heating at rate of 3.6 C h −1 could effectively suppress the recrystallization, while for hot-pressed 7085 alloy with high stored energy, the rapid heating at …

Nanotwinning-assisted recrystallization

Dynamic recrystallization helps to refine grain structures in metals and tune their properties. ... creep or corrosion resistance, hydrogen storage, superconductivity, biocompatibility and so on 1 ...

Metals | Free Full-Text | Promoting Dynamic Recrystallization of …

The process of recrystallization continues to consume storage energy that is generated by the accumulation of a significant amount of dislocations inside the grains during the process of electroshock-assisted deformation.

New understanding of static recrystallization from phase-field …

Phase-field (PF) simulations have emerged as a powerful tool for understanding recrystallization phenomena. While numerous factors could simultaneously influence the recrystallization processes of deformed microstructures in experiments, PF simulations allow one to isolate the contribution of each factor and mesoscale mechanism …

Metals | Free Full-Text | Study of the Dynamic Recrystallization …

The exploration of the relationship between process parameters and grain evolution during the thermal deformation of rare-earth magnesium alloys using simulation software has significant implications for enhancing research and development efficiency and advancing the large-scale engineering application of high-performance rare-earth …

Post-dynamic recrystallization behavior of a powder metallurgy Ni-Co-Cr based superalloy under different deformation conditions …

Comparing Fig. 5 b with Fig. 5 d, f and h, it can be demonstrated that yellow or green deformed grains with higher energy storage were gradually replaced by blue recrystallized grains with lower energy storage. …

Metadynamic Recrystallization Behavior of Cr-Ni-Mo Alloy Steel

In order to study the metadynamic recrystallization behavior of 34CrNi3MoV steel, a double-pass isothermal compression experiment and a single-pass thermal interval experiment were designed and conducted to obtain the stress–strain curves under different deformation conditions and to explore the action law of deformation …

The dynamic recrystallization microstructure characteristics and …

Nucleation and growth of recrystallization grains require energy, and activation energy is the primary driving force for grain boundary rotation and slip. Relative …

Stored Energy and Recrystallization Process

Stored energy plays a crucial role in recrystallization process. One can distinguish two contributions to this energy. The first one is the elastic energy, connected …

Energy storage and dissipation of elastic-plastic deformation under shock compression: Simulation …

Dynamic recrystallization is considered to be a potential cause of adiabatic shear failure (Rittel et al., 2008) and as such, energy storage is also considered to be one of the primary factors in the formation of adiabatic shear bands when metallic materials are).

A physically based model of the effect of recovery and clustering on recrystallization kinetics

The classical JMAK model of recrystallization kinetics has been widely used to describe the growth of randomly distributed nuclei under constant driving force. These conditions are not satisfied in many systems. The driving force for growth generally varies with time, and the nuclei are usually not uniformly distributed. In this paper, we …

A review of dynamic recrystallization phenomena in metallic …

During recovery, the stored energy of the material is mainly lowered by annihilation and rearrangement of dislocations into lower energy configuration, both of which are achieved by glide, climb and cross slip of dislocations. For materials with high γ SFE, such as Al alloys, α-iron and nickel, the dissociation of the perfect dislocation into two …

Microstructure evolution and dynamic recrystallization mechanism during thermal deformation …

The microstructure evolution of GH4698 nickel-based superalloy was studied over a temperature range of 1000–1200 °C, a strain rate range of 0.01–1 s−1 and a strain range of 0.1–0.9 by uniaxial thermal compression. The dynamic recrystallization (DRX) behaviour and nucleation mechanism were characterized by electron …

The effect of nucleation models on dynamic recrystallization I.

The response of the material to hot deformation is simulated by adding recrystallization nuclei and stored energy continuously with time. The simulations use an …

Recovery and Recrystallization

Recovery and recrystallization are the changes in crystal structure, microstructure, and properties of metal or alloy that has undergone plastic deformation …

Long-term thermal energy storage prototype of cold-crystallizing …

Phase change materials can improve the energy density of thermal energy storages (TES) by using the latent heat of melting, but they cannot typically operate efficiently in long-term TES. A unique way to store the latent heat for long-term can be achieved with ...

Characterization of ice recrystallization in ice cream during storage using the focused beam reflectance measurement …

There are several recrystallization mechanisms but the process is always a result of a minimization of surface free energy of the entire crystal phase and of an equalization of the chemical potential among all phase (Hartel, 1998, Hagiwara et al., 2006).

Crystallization of inorganic salt hydrates in polymeric foam for thermal energy storage …

1. Introduction Non-renewable energy resources such as coal, gas, or oil are depleting with time and in future period these sources will eventually finish. Storage of energy from renewable sources such as wind, solar power etc. is …

Grain refinement driven by recrystallization after annealing …

Traditional recrystallization technology is based on recrystallization annealing after artificial plastic deformation. ... This stage is the preparation stage for organizational transformation (also known as the energy storage stage). Following this is the post (also ...

The effect of nucleation models on dynamic recrystallization I. Homogeneous stored energy …

The simulations use an energy storage rate Schedule that models both work hardening and dynamic recovery of metals by way of a parabolic work hardening law. Recrystallization nuclei, having zero stored energy, were added at a rate which is related to the level of work hardening.

Continuous recrystallization in austenitic stainless steel after …

The rapid grain coarsening under transient recrystallization can be motivated by two driving forces, which result from the substructural inhomogeneities and the grain boundary energy. The former should be considered as a distinctive feature of transient recrystallization when compared to the conventional normal grain growth.

Dynamic recrystallization behavior and strengthening mechanism …

The large deformation energy storage at hot compression provided a powerful driving force for recrystallization, and the high temperature simultaneously …

Microstructure evolution and dynamic recrystallization …

Abstract Through isothermal compression testing at various temperatures and strain rates, the thermal deformation behavior of 316L stainless steel was investigated. Utilizing corrected true stress–strain data, an Arrhenius constitutive model with strain compensation was developed. Electron backscatter diffraction and transmission electron …

Effect of stored energy and recovery on the overall …

Range 1 is associated to the recrystallization of high stored energy regions mostly belonging to the γ-fiber and Range 2 to the progression of recrystallization mainly through low stored energy α-fiber grains.