Investigation of the Wetting Behavior of Formulated SMAW Electrode Coating Fluxes With Regression and ANN Model

The SMAW electrode coating fluxes are formulated for the pipeline steels. The contact angle, spread area, work of adhesion, and floatation coefficient at 1573 K are investigated for the CaF 2-CaO-Al 2O 3-BaO-SiO 2-TiO 2 fluxes. The 27 flux compositions are generated by extreme vertices design approach. The surface tension and corrected optical basicity of the fluxes are calculated. The regression analysis is used to estimate the effect of individuals and the interaction of constituents. The ANN models are prepared and compared with regression analysis for prediction accuracy. The phases present in the fluxes are characterized by the XRD and FTIR analysis. The structural analysis of the melt is performed by analyzing the powder of quenched slag. The structural analysis of the as-quenched slag is done by XRD, and FTIR which indicates the network formation of [AlO4]5- tetrahedral and [SiO4]4- tetrahedral unit. The UV–Vis analysis of the as-quenched slag shows the redshift with lower corrected optical basicity. The corrected optical basicity is a global measure of oxygen species in the melt. The CaO and BaO act as network breaker and releases non-bridging oxygen O - at the expense of bridging oxygen O. The contact angle decreases with the increase of CaO and BaO. The increase in individual constituents Al 2O 3 and CaF 2 increases the contact angle. The Al 2O 3 acts as network former in the melts. The CaF 2 present in the melt as Ca 2 + and F - due to higher CaF 2 concentration (∼ 35 pct) which has positively affected the contact angle. The increase of individual constituents such as CaO and BaO has an increasing effect on the work of adhesion and decreasing effect on the floatation coefficient. The increase of Al 2O 3 and CaF 2 has a decreasing effect on the work of adhesion and an increasing effect on the floatation coefficient. The Al 2O 3 is generally considered as network former, which influences the wetting properties. The binary interaction of CaO ·BaO, andCaF2·CaO has a decreasing effect on the contact angle, and floatation coefficient, and an increasing effect on the work of adhesion. The binary interaction of the CaF2·CaO,CaF2·Al2O3,CaF2·BaO, and CaO·Al2O3 has a decreasing effect on the spread area, whereas the ternary interaction of CaF2·CaO·Al2O3,andCaF 2· CaO · BaO has an increasing effect on the spread area.