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Meeting Materials Science & Technology 2020
Symposium Coating and Thin Film Materials for Energy, Aerospace, Environment and Biological Applications
Presentation Title Modeling Ceramic Coating Removal Process Using Smoothed Particle Hydrodynamics Method
Author(s) Jian Zhang, Sugrim Sagar, Dan Daehyun Koo, Hyun-Hee Choi, Yeon-Gil Jung, Heesung Park, Jing Zhang
On-Site Speaker (Planned) Jing Zhang
Abstract Scope A smoothed particle hydrodynamics (SPH) based model to simulate the coating removal process using water jet is developed. The effects of water jet impact angle and velocity on the zirconia coating are studied. In addition, the temperature evolution during the removal process is evaluated. The results show that the coating removal rate increases with incident angle and impact velocity. The simulated profiles of removed coating are in good agreement with experimental observations.

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Infiltration Behavior of Calcium Magnesium Alumina-Silicate (CMAS) in Thermal Barrier Materials of YSZ, LZ, and LZ–YSZ Composite
Modeling Ceramic Coating Removal Process Using Smoothed Particle Hydrodynamics Method
Molecular Dynamics Simulation of Mechanical and Tribological Properties of AlCoCrFe High Entropy Alloy Coatings on Aluminum Substrate
Numerical Simulation of Temperature Swing Effect in Silica Reinforced Porous Anodized Aluminum Coatings
Rapid, Selective, Ambient Growth and Optimization of Copper Benzene-1,3,5-Tricarboxylate (Cu−BTC) Metal−organic Framework Thin Films on a Conductive Metal Oxide for Sensing Applications
Synthesis of Magnesium Oxide based Insulation Coating Powder by Co-precipitation

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