Based on the results and procedures characterized by this investigation, it may be possible to further understand the reaction mechanisms and detailed corrosion features of other alloys utilized in industrial galvanizing operations, such as cobalt-based and iron-based superalloys. Furthermore, recognizing the significance of the phase transformations in the region of 0.14wt% aluminum on these advanced alloys may promote more focused research in this economically important aluminum regime.... Figure 3-10: Aluminum-Niobium Binary Phase Diagram 54 Figure 3-11: Comparison of Molten Aluminum Experimental Data to Theoretical Dissolution Equation 55 Figure 3-12: Elemental Solubility Limits of 18Cr-10Ni Stainless Steel in Pureanbsp;...
|Title||:||Dissolution and Diffusion Characteristics of 316L Stainless Steel in Molten Zinc Containing Variable Concentrations of Aluminum|
|Author||:||Mark A. Bright|
|Publisher||:||ProQuest - 2007|