Experimental Investigation and Modeling of the Specific Enthalpy Distribution in a Spray Cone

N. Ellendt; Volker Uhlenwinkel

doi:10.4028/www.scientific.net/MSF.534-536.417

Paper Titles

Alumina-Titania Spot Spraying Bead Formation and Characteristics in Atmospheric Plasma Spraying
p.401

An Empirical Method to Evaluate the In-Flight Particle Behaviors within a Cross Section of Mass Flux during Atmospheric Plasma Spraying
p.405

Correlations between In-Flight Particles, Splats and Coating Microstructures of Ni20Cr Thermally Sprayed by Flame and Arc Spray Processes
p.409

Effect of Gun Nozzle Geometry, Increase in the Entrance Convergent Section Length and Powder Injection Position on Cold Sprayed Titanium Coatings
p.413

Experimental Investigation and Modeling of the Specific Enthalpy Distribution in a Spray Cone
p.417

Fabrication of Ti(Al,O)-Al₂O₃ Powder Feedstock for Thermal Spraying and Evaluation of Composite Coating
p.421

Microstructure and Bonding Strength of Tungsten Coating Deposited on Copper by Plasma Spraying
p.425

Porosity in Spray-Formed Materials
p.429

Present Status and Future Prospects of Cold Spraying
p.433

HomeMaterials Science ForumMaterials Science Forum Vols. 534-536Experimental Investigation and Modeling of the...

Experimental Investigation and Modeling of the Specific Enthalpy Distribution in a Spray Cone

Abstract:

In Spray Forming, specific enthalpy is a key parameter in the deposition process as it influences the thermal condition of the impinging droplets as well as that of the deposit surface. An empirical model for the distribution of specific enthalpy in the spray cone was developed as an easy to handle alternative to numerical models with which the descriptive partial differential equations are solved numerically. The model results were compared with the experimental data to validate its applicability.