Did you know turbine blades operate in environments above their melting temperature? The secret is a barrier, no thicker than your fingernail, that insulates, protects, and prevents the nickel superalloy blade from melting. In this episode we discuss the materials science that makes low thermal conductivity, high compliance thermal barrier coatings possible. Towards the end we peer into what the future might hold as we push operating temperatures higher.

Articles Discussed:

2019, Smil, Gas Turbines Have Become by Far the Best Choice for Add-on Generating Power They offer instant-on power that's compact, mobile, quiet, economical, durable, and matchlessly efficient, IEEE Spectrum [LINK]

2010, Gas Turbines breaking the 60% efficiency barrier, Power Engineering International [LINK]

2005, Clarke & Phillpot, Thermal barrier coating materials, Materials Today [LINK]

2003, Clarke & Levi, Materials Design for the Next Generation Thermal Barrier Coatings, Annual Reviews of Materials Research [LINK] This article will be made available for free for 6 months thanks to the support of Materials Today!

This episode is sponsored Matmatch. Check out how they can help you find the perfect material for your next engineering project! This episode is also sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.

Thanks to Kolobyte and Alphabot for letting us use their music in the show!

Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing), Ramsey Issa (editing assistance).

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