Our article Component Design and Metals Engineering discusses the role of metals engineering for component design and that metals engineering is often overlooked. The results are often sub-optimum – components that fail to meet performance and reliability requirements, components that are more expensive than necessary, and components that are difficult to fabricate. This article explains what metals engineering is and why it is overlooked.
Metals engineering involves applying the science of metals to engineering decisions for product design and manufacturing – component design, supplier evaluation, product failures, and quality problems. The science of metals is concerned with how the properties of metals are influenced by metal composition, the microscopic structures (microstructure) in metals, and the processes used to form metals and fabricate components. Understanding metal microscopic structures and how they are influenced by alloy composition and manufacturing processes, such as cold working and heat treating, is critical for being able to engineer metals. Just because the microscopic structures can’t be seen with the naked eye doesn’t mean they can be ignored.
Understanding the science of metals makes it possible to engineer the metals used in components – tune the metal’s composition and microstructure – to obtain the properties needed for a specific application. The properties include not just mechanical and electrical properties, but also properties related to reliability, ease of fabrication, and ease of joining.
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Why metals engineering is overlooked
Most design engineers have little familiarity with the science of metals and how metals can be engineered. It is not a matter of ability – they are good engineers. But they are not metals experts. Most had just one college metallurgy course and their work focus is on mechanical design – component form. So, they don’t think to consider metals engineering as an approach to optimize a component’s design for performance, reliability, cost, and ease of fabrication. This is a common mindset throughout many engineering organizations.
What design engineers do and the results
So, engineers try to use the alloys used in previous products, without questioning whether other alloys will yield better results. Or they rely on intuition and rote experience to select an alloy, try to find information on the internet (good luck!), or ask component suppliers for help (usually they also rely on rote experience). These approaches to design decisions often lead to the problems mentioned in the previous article – failed product tests, high component costs, and supplier quality problems.
Steps to better designs
Design engineers don’t have to become metallurgists. What they can do is become more knowledgeable about metallurgy fundamentals and metals engineering considerations, so they have a better appreciation for when to get a metallurgical engineer involved in component design. The benefits will be fewer unplanned problems, lower costs, more confidence in engineering decisions, and more elegant engineering solutions.
We offer metallurgy training and help companies with metals engineering to design components and perform failure analysis for quality problems and component failures. Call or email if you would like to discuss a project. 847.528.3467 firstname.lastname@example.org
Want to learn metals engineering considerations for component design and alloy selection? See our metallurgy courses page for training options.