Additive Manufacturing of metal alloys: Why XRD is an important tool for characterizing metal powders and built components

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For metal fabrication processes such as casting, forging, and isostatic pressing, the heating-cooling regimes are more prolonged, controlled, and homogenous. However, for powder bed additive manufacturing (AM) processes such as SLM, EBM, and DED, the heating-cooling regimes are very fast and location-specific, which can lead to different microstructures than those obtained with conventional processes, even with the same alloy composition, and these can change further with post-treatments such as heating, machining and isostatic pressing.

X-ray diffraction (XRD) is a non-destructive analytical technique that can be used to study these processes by measuring microstructural characteristics such as phase composition, crystallite size, texture (crystallite orientation), and residual stress/strain.

In this webinar, Dr. Scott Speakman will discuss the importance of XRD for metal additive manufacturing, including powder and component analysis, with several application examples presented.

Speakers

Dr. Scott Speakman - Principal Scientist XRD

More information

- Who should attend?
Anyone working in the field of powder metallurgy or metal additive manufacturing as well as those using conventional processes such as casting, forging and machining.


- What will you learn?
How X-ray diffraction (XRD) can be used to study and optimize the AM process by measuring material characteristics such as phase composition, crystallite size, texture (crystallite orientation), and residual stress/strain