Additive manufacturing is a focus area for many 3D data gathering experiments. This recipe evaluates an additively manufactured 17-4 PH steel sample for microstructure, porosity, and other additive manufacturing process defects. Follow this step-by-step workflow to analyze your steels and ferrous metals with Robo-Met.3D®.
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Most workflows can be divided into a planarizing step that is not repeated, and grinding/polishing steps for material removal and surface smoothing. In this case, we used a 70µ Dia-Grid Diamond Disk for planarization. In other cases, we have used finer (30µ or 15µ) disks for this purpose. The finer grit disks are useful for samples with smaller cross section or more delicate structures such as composites.
Maintaining moisture on the pads is essential to successful automated metallography. The final on-pad cleaning step provides a better imaging surface.
Etching can be a very valuable adjunct for three-dimensional microstructural investigations. We screen etchants for suitability for use with the immersion technique and stability for the period of the run, as well as suitability for use with the material being investigated.
We evaluated both Waterless Kalling’s and Fry’s etchants with this material. Etching with Fry’s Reagent gave us a well-delineated, predominantly martensitic structure. It also revealed that the lack of fusion defects could be associated with microstructural features. Using one of the three dip wells on the system for neutralization maintains safe operational protocols.
Unetched image, at 100x |
Waterless Kalling’s etch, at 100x |
Fry’s Reagent etch, at 100x |
The wide variety of materials that we analyze for clients has given us extensive experience in developing workflows suited to materials such as aerospace alloys and polymer and ceramic matrix composites, among others. Contact us to jump-start your utilization of Robo-Met. We’ll be happy to consult with you to create a custom workflow to characterize your materials.