Learn to differentiate alloy performance through corrosion analysis and application-specific material selection in this self-paced technical module.

Learn to evaluate corrosion resistance and material selection through real-world data and design practices in this technical self-paced module.

Learn to distinguish nickel alloy families and assess corrosion resistance through material comparisons and application guidelines in this self-paced technical module.

Learn to assess and apply corrosion-resistant stainless steel solutions in potable water treatment through real-world design, fabrication, and maintenance practices in this self-paced technical module.

Learn to apply corrosion-resistant welding techniques for nickel alloys through guided procedures and fabrication insights in this self-paced technical module.

Explore how to identify, analyze, and apply the properties of Ni-Hard alloys through real-world industrial applications in this self-paced technical module.

Learn to evaluate corrosion, wear, and thermal performance across flake and spheroidal graphite alloys through standards-based analysis in this self-paced metallurgy module.

Learn to evaluate and select steels and alloys for pulp, paper, and biomass systems through corrosion behavior analysis in this self-paced technical module.

Learn to evaluate corrosion-resistant alloys through real-world service data in this practical, engineer-focused module.

Learn to evaluate, fabricate, and weld duplex stainless steels while preserving their corrosion resistance and mechanical integrity in this self-paced, standards-based module.

Learn to apply metallurgical principles and fabrication techniques for corrosion-resistant components through standards-based guidance in this self-paced technical module.

Learn to apply electroplating principles for functional and decorative coatings in this technical, self-paced module.