Simulation of Particle Interaction with Surface Microdefects during Cold Gas-Dynamic Spraying

Aleksieieva, Olha; Dereviankina, Liliia; Breuninger, Paul; Bozoglu, Mustafa; Tretiakov, Pavlo; Toporov, Andrii; Antonyuk, Sergiy

doi:10.3390/coatings12091297

Cited by 6 publications

(5 citation statements)

References 42 publications

(59 reference statements)

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“…When the diameter is 50 µm, the maximum PEEQ increases in the range of 500~550 m/s and decreases at the velocity of 650 m/s. Studies [37,43,57] have further shown that when the particle size increases to a certain size, its critical velocity decreases. Larger particles are more likely to deposited when the velocity of particles with small size also decrease equally; due to their higher critical velocity than the corresponding critical velocity of large particles, small particles may not be able to deposit on the substrate.…”

Section: Effect Of Particle Size On Deformationmentioning

confidence: 99%

Determination of Critical Velocity of Cold-Sprayed NiCoCrAlY Coating via Arbitary Lagrangian-Eulerian (ALE) Method of Finite Element Simulation

Wu,

Su,

Zhao

et al. 2023

Coatings

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NiCoCrAlY coatings are commonly used as bond-coat in thermal barrier coatings due to their excellent high-temperature oxidation resistance and suitable thermal expansion coefficient between the superalloy substrate and ceramic top layer. Previous studies have shown that the NiCoCrAlY coatings prepared by cold spray (CS) exhibit excellent comprehensive properties. In the process of cold spray, the solid particles impact onto the substrate with a high velocity, powder particles and the substrate undergo plastic deformation, and the coating is deposited finally. When the velocity of the impacted particles reaches a certain value (critical velocity), the particles can be effectively deposited on the substrate. Due to the short impact time and large plastic deformation of the cold spray process, the process is difficult to be observed in the actual experiment process in real time. Therefore, the current work has used the explicit dynamics method in finite element numerical simulation to simulate the deposition behavior of the particle during the cold spray process. By changing the impact velocities and sizes of particles, the changes in temperature (TEMP), equivalent plastic strain (PEEQ), deformation characteristics of the particle and substrate after particles being completely deposited on the substrate have been obtained. The critical velocity of particle deposition is about 600 m/s, and the larger the particle, the easier it is to deposit. And the current modeling and simulation work provided the theory instruction for the preparation of NiCoCrAlY coatings with excellent performance via cold spray.

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Section: Effect Of Particle Size On Deformationmentioning

confidence: 99%

Determination of Critical Velocity of Cold-Sprayed NiCoCrAlY Coating via Arbitary Lagrangian-Eulerian (ALE) Method of Finite Element Simulation

Wu,

Su,

Zhao

et al. 2023

Coatings

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show abstract

“…Metallurgical bonding has been observed using various microstructural characterization techniques [17,27,47,52,53,[55][56][57]. These include scanning and transmission electron microscopy [55,58,59] and various empirical models [48,56,57] have been developed to explain the mechanism. The schematic representation of the bonding mechanism of a typical cold spray process (tantalum particle on 4340 steel substrate) is given in Figure 6.…”

Section: Bonding Mechanisms Of Cold Spray Of Metallic Materialsmentioning

confidence: 99%

Section: Bonding Mechanisms Of Cold Spray Of Metallic Materialsmentioning

confidence: 99%

“…Three main types of models are used to simulate the cold spray processes. These include the finite element-based models, constitutive equations, and models for describing the bonding at the particle-substrate and particle-particle interfaces [39,58]. A summary of the models and their applications to cold spray processes are highlighted.…”

Section: Computational and Numerical Simulation Models-an Overviewmentioning

confidence: 99%

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Cold Spray Coatings of Complex Concentrated Alloys: Critical Assessment of Milestones, Challenges, and Opportunities

et al. 2023

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Complex concentrated alloys (CCAs) are structural and functional materials of the future with excellent mechanical, physical, and chemical properties. Due to the equiatomic compositions of these alloys, cost can hinder scalability. Thus, the development of CCA-based coatings is critical for low-cost applications. The application of cold spray technology to CCAs is in its infancy with emphasis on transition elements of the periodic table. Current CCA-based cold spray coating systems showed better adhesion, cohesion, and mechanical properties than conventional one-principal element-based alloys. Comprehensive mechanical behavior, microstructural evolution, deformation, and cracking of cold spray CC-based coatings on the same and different substrates are reviewed. Techniques such as analytical models, finite element analysis, and molecular dynamic simulations are reviewed. The implications of the core effects (high configurational entropy and enthalpy of mixing, sluggish diffusion, severe lattice distortion, and cocktail behavior) and interfacial nanoscale oxides on the structural integrity of cold spray CCA-based coatings are discussed. The mechanisms of adiabatic heating, jetting, and mechanical interlocking, characteristics of cold spray, and areas for future research are highlighted.

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“…Most other simulations were performed using Johnson-Cook strain-rate plasticity model, for example, by Yokoyama (2006) and Mebdoua et al (Mebdoua, Fizi & Bouhelal, 2016), and the impact of a particle coming into contact at an angle by Li et al (2007). Simulations of a particle falling into a crack in material were performed by Aleksieieva et al (2022). An attempt to simulate the impact by using different plasticity models, that is, closer to experimental high strain rate results, was made by Razavipour and Jodoin (2021).…”

Section: Numerical Methods In Simulation Of Particle Interactionmentioning

confidence: 99%

Numerical thermomechanical analysis of high strain rate impact of micro particle

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Simulation of Particle Interaction with Surface Microdefects during Cold Gas-Dynamic Spraying

Cited by 6 publications

References 42 publications

Determination of Critical Velocity of Cold-Sprayed NiCoCrAlY Coating via Arbitary Lagrangian-Eulerian (ALE) Method of Finite Element Simulation

Determination of Critical Velocity of Cold-Sprayed NiCoCrAlY Coating via Arbitary Lagrangian-Eulerian (ALE) Method of Finite Element Simulation

Cold Spray Coatings of Complex Concentrated Alloys: Critical Assessment of Milestones, Challenges, and Opportunities

Numerical thermomechanical analysis of high strain rate impact of micro particle

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