Determination of adhesion of the coating deposited by arc spraying with pulsation of atomizing air flow

Abstract: During electric arc spraying, during the transfer of molten metal by air flow, there is a significant burnout of alloying elements with the formation of a large amount of oxides, which negatively affects the adhesion of the coating to the base. A solution to the problem of increasing the adhesion strength by using pulsation of the atomizing air flow is proposed. At the optimal frequency of the pulsed flow shut-off, the time of formation of liquid metal droplets at the ends of the electrodes coincides with the … Show more

“…With that, an intense chemical interaction of the atomizing airflow with the electrode material occurs, leading to substantial burnout of alloying elements and deterioration of the deposited coating [9]. The oxidation negatively affects the microstructure leading to a decrease in exploitation behavior (wear resistance [10,11], corrosion resistance [12], pull-off strength [13], mechanical properties [14], etc.) of the coatings and bulk metal parts.…”

Airflow Dynamics and Aluminum Coating Oxidation Behavior under Electric-Arc Spraying with Airflow Pulsations

“…With that, an intense chemical interaction of the atomizing airflow with the electrode material occurs, leading to substantial burnout of alloying elements and deterioration of the deposited coating [9]. The oxidation negatively affects the microstructure leading to a decrease in exploitation behavior (wear resistance [10,11], corrosion resistance [12], pull-off strength [13], mechanical properties [14], etc.) of the coatings and bulk metal parts.…”

Airflow Dynamics and Aluminum Coating Oxidation Behavior under Electric-Arc Spraying with Airflow Pulsations