Learn the considerations for aluminum alloy and temper selection. Includes alloy selection case studies with attendee input.
Learn how metals engineering considerations are applied to design better, lower-cost components that don’t headaches.
Learn how metals science and engineering can be applied to design better components and solve problems faster. (FREE)
Learn how metallurgical analysis techniques are used to get information to determine the root cause of reliability and quality problems.
Learn the relationships between steel properties and composition, microstructure, and heat treating.
Learn how to identify alloys and mill conditions for an application. Case studies will be used for demonstration.
Learn how metallurgical analyses are used to help determine the root cause of problems that arise during product development, manufacturing, and product use.
Learn about the electroplating process, plated layer properties and their evaluations, and plated layer defects and their causes.
Learn metallurgy of wrought aluminum alloys, including effects of alloy composition, cold-working, and heat treating on strength.
Learn about common corrosion mechanisms and design approaches to reduce and prevent corrosion.
Learn how to perform a failure analysis on fractured and cracked components and joints.
Learn the metallurgical fundamentals of how alloying, heat treatment, and cold working are used modify metal strength.
Learn about stainless steel metallurgy with respect to stainless steel strength and corrosion resistance.