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- Title
Multiscale Model on Deposition Behavior of Agglomerate Metal Particles in a Low-Temperature High-Velocity Air Fuel Spraying Process.
- Authors
Xiaojing Yuan; Bailin Zha; Genliang Hou; Pingjun Hou; Li Jiang; Hangong Wang
- Abstract
A multiscale model was constructed for agglomerate metal particle deposition in a low-temperature high-velocity air fuel (LTHVAF) thermal spraying process using finite element analysis (FEA) and smoothed particle hydrodynamics (SPH). Here, the agglomerate particle impact on the substrate is simplified to three states. Then, the corresponding model is selected. The simulated results show that the temperature and velocity of agglomerate particle can affect the effective temperature and plastic strain in the contact interface for increasing particle energy. At the microscale, the deformation of the deposited particle might coarsen the coating surface to the extent that the critical velocity of the metal particle would decrease. It indicates that the agglomerate particle might splash when it impacts on the substrate. The transient melting can be ascertained at an angle in an approach to the achievement of intermetallics combined with the modeling of the particle penetrating into the substrate. In this process, the effective strain of an agglomerate particle at the nanoscale is less than that at microscale, but the surface area ratio at nanoscale is large. The uncompacted state of the agglomerate particle can lead to a turbulent force when the agglomerate particle deposits on the substrate, which can reduce the penetration performance of the particle. This behavior can decrease the stress-strain of substrate and cause the cracked particle to sparkle.
- Subjects
METAL spraying; FINISHES &; finishing; SURFACE coatings; SUBSTRATES (Materials science); COATING processes; COATINGS industry; SURFACES (Technology); EQUIPMENT &; supplies
- Publication
Journal of Thermal Spray Technology, 2009, Vol 18, Issue 3, p411
- ISSN
1059-9630
- Publication type
Article
- DOI
10.1007/s11666-009-9322-5