Took me a while, but I tracked down the conversation. Turns out it wasn't a research paper, and I wasn't linked to it but found it on my own in researching the discussion I was having[1]. It was an a video about engineering and cost effectiveness of sintering metals and the current downsides, which (at the time) there were attempts to counter by using specific laser patterns, but even with that the fatigue life was lacking compared to other manufacturing methods.
This is, of course, four years out of date, and I can't state for certain how accurate the review of the problems that video provided were, but it did a very good job of explaining what caused those problems, so I wasn't left with many questions as to why sintering wasn't as well suited for some situations. That said, I'm not in this industry, I just noticed some relation to a prior conversation I had and the topic is interesting to me.
Fatigue failures could theoretically be more probable on stress-raisers around oxide inclusions. However, most modern DMLS have achieved better than >99.5% build density in an inert atmosphere, and better controlled annealing. =)
The more exotic experimental processes intended for hobbyists will likely overtake industry in the next year... ;-)
This is, of course, four years out of date, and I can't state for certain how accurate the review of the problems that video provided were, but it did a very good job of explaining what caused those problems, so I wasn't left with many questions as to why sintering wasn't as well suited for some situations. That said, I'm not in this industry, I just noticed some relation to a prior conversation I had and the topic is interesting to me.
1: https://news.ycombinator.com/item?id=24795406
2: https://www.youtube.com/watch?v=fzBRYsiyxjI