Spyros Kamnis scite author profile

Powder particles are projected from a thermal spray gun towards substrates to generate protective coatings. A clear understanding of the dynamic impingement when droplets make contact with substrates is critical for controlling and optimizing the thermal spray process. A droplet impingement model is developed to simulate the transient flow dynamics during impact, spreading and solidification. The volume of fluid surface tracking technique is employed within a fixed Eulerian structured mesh. The numerical model is validated with experimental data from tin droplet measurements. The results prove that thermal contact resistance is the key element in characterizing the substrate surface roughness for impingement modelling. It is found that spreading, solidification and air entrapment are closely related to surface roughness.

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Influence of heat treatment on the microstructure and the physical and mechanical properties of dental highly translucent zirconia

Dimitriadis

Sfikas

Kamnis

et al. 2022

J Adv Prosthodont

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PURPOSE Microstructural and physico-mechanical characterization of highly translucent zirconia, prepared by milling technology (CAD-CAM) and repeated firing cycles, was the main aim of this in vitro study. MATERIALS AND METHODS Two groups of samples of two commercial highly-translucent yttria-stabilized dental zirconia, VITA YZ-HT White (Group A) and Zolid HT + White (Group B), with dimensions according to the ISO 6872 “Dentistry - Ceramic materials”, were prepared. The specimens of each group were divided into two subgroups. The specimens of the first subgroups (Group A 1 and Group B 1 ) were merely the sintered specimens. The specimens of the second subgroups (Group A 2 and Group B 2 ) were subjected to 4 heat treatment cycles. The microstructural features (microstructure, density, grain size, crystalline phases, and crystallite size) and four mechanical properties (flexural strength, modulus of elasticity, Vickers hardness, and fracture toughness) of the subgroups (i.e. before and after heat treatment) were compared. The statistical significance between the subgroups (A 1 /A 2 , and B 1 /B 2 ) was evaluated by the t-test. In all tests, P values smaller than 5% were considered statistically significant. RESULTS A homogenous microstructure, with no residual porosity and grains sized between 500 and 450 nm for group A and B, respectively, was observed. Crystalline yttria-stabilized tetragonal zirconia was exclusively registered in the X-ray diffractograms. The mechanical properties decreased after the heat treatment procedure, but the differences were not statistically significant. CONCLUSION The produced zirconia ceramic materials can be safely (i.e., according to the ISO 6872) used in extensive fixed prosthetic restorations, such as substructure ceramics for three-unit prostheses involving the molar restoration and substructure ceramics for prostheses involving four or more units. Consequently, milling technology is an effective manufacturing technology for producing zirconia substructures for dental fixed all-ceramic prosthetic restorations.

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Numerical investigation of combustion and liquid feedstock in high velocity suspension flame spraying process

Gozali

Kamnis²,

Gu³

2013

Surface and Coatings Technology

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RETRACTED: Numerical modelling of metal droplet cooling and solidification

Zeoli

Kamnis

2008

International Journal of Heat and Mass Transfer

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Spyros Kamnis

Numerical modelling of droplet impingement

Influence of heat treatment on the microstructure and the physical and mechanical properties of dental highly translucent zirconia

Numerical investigation of combustion and liquid feedstock in high velocity suspension flame spraying process

RETRACTED: Numerical modelling of metal droplet cooling and solidification

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