I'm a Professor of Materials Science & Engineering at the University of Utah. I'm passionate about engineering education. I love making tutorials and example problems. Just comment an any video with a request for a new problem or explanation and I'll make it happen.
Your videos are really helping me in my work with archaeometallurgy, where I reached a point at which learning some materials science has become necessary to progress. Thanks a lot.
Hi Taylor, thank you for such precise explanation. I want to know how can we find uncertainty in fitting parameters and eventually the goodness of the fit?
Youve been a good source for material and studying so far but I have to say, this entire chapter is very very very rushed. Having a hard time keeping up with jumping so fast from point to point and just glossing over important things.
all videos about miller plane is not lean, this one shortest and needs to be shown at material science university lessons, why people want to complicate very basic things do not know. thank you
Looking forward to the series. I’ll be curious to find out if this is frontier science and research or is it being used in industry? I’m wondering where the opportunities will be and how this can make progress. Great stuff…thanks
@@TaylorSparksYou may include Fissile Materials like Uranium-235, Plutonium-239. Fertile Nuclear Materials: Uranium-238, Thorium-232 (used to breed fissile materials). Fission Products: Materials formed from the fission process, such as iodine-131, cesium-137, strontium-90. Fusion Materials: Deuterium, Tritium, and Helium-3. Radioactive Isotopes: Used in medicine and industry, such as cobalt-60, iodine-131, and americium-241.
@@TaylorSparksconsiderations that go into making fuel rods. They have to handle being dry and wet, high temperatures, transmutation and not hinder the nuclear reactions of the fuels (and not make them too “happy” either). And they need to be fairly easy and safe to make. And they need to be fairly easy and safe to dismantle so undesired reaction products can be removed and we can make new fuel rods.
I learned about HEAs from someone's draft of a novel, oddly enough. The author used them and advancements in 3D printing as a basis for a Fifth Industrial Revolution within the setting, and that in turn has me quite interested in seeing where research goes with them and what practical applications they could have when it comes to the manufacture of machines, electronics, and probably even basic consumer goods.
@@jimmyseaver3647 That's awesome. To imagine that they didn't even exist 20 years ago and now they're showing up in Sci-Fi. Way. Cool. Check out our recent podcast on them. We didn't even deeper dive than I did in this video. Materialism podcast episode 91
@@gsiddall6091 yeah, we usually put them in our show notes. Jared is in charge of that. Were they not included this week? I can bug him to get them posted
People who like this will probably also enjoy “Jernets Danmarkshistorie” (History of Denmark of the Iron - it works better in Danish) by Vagn Fabritius Buchwald. It’s in Danish so there are about 20 million people who can read it.
I’m incensed that RU-vid didn’t show me this podcast until a few days ago. I thought RU-vid knew my tastes, but alas… I’ve heard the latest two episodes and now I’m going back to the beginning. Thank you so much for this!
Many things can influence microstructure. Temperature gradient can produce elongated grains that grow along the thermal axis. But in general these phase diagram cooling curves are a good starting point for a possible grain structure
@@Ukraine-is-Corrupt hmmm... I would probably use machine learning to predict size based on a composition-based feature. Vector and once you know the size you can estimate the crystal structure and therefore the density
@@TaylorSparks I'm reasonably certain I can estimate the physical size of the Nucleus (hence, neglecting the Electron cloud). What would my next step be ?
Dude, Im just a normal guy who is exploring bulletproofing and high kenetic dispersion materials for specific task and purpose. I am so glad I found your channel. I am now a subscriber. I am now looking into how certian glue compounds and roofing pitch coating on kevlar, carbon, and nylon fibers.
The proposal was for an inert cathode or inert anode? Isn't it the anode that is consumed when the carbon electrode combines with oxygen liberated during the process?
Materials Informatics definitely faces a data problem, particularly with small and heterogeneous datasets compared to other domains. However, it's encouraging to see the progress over time! I appreciate the overview of common materials data repositories. Thank you, Professor for this video
