What can we do with powder technologies? Composits of ceramic matrix and particle reinforcement for example. But powder technology isn’t the only way. Join us to see all the advantages and disadvantages of processes like chemical vapour infiltration and liquid phase infiltration.

Today we’ll go over Fiber-Reinforced Ceramic Matrix Composites (FRCMCs). We’ll see their toughening mechanisms, such as crack bridging and fiber pullout; production methods, like powder technology, infiltration techniques and additive manufacturing; the properties of different matrix and fiber materials; and the recycling challenges.

Today we’ll deep dive into pulverotechnology. We’ll talk about Powder Production, Properties, and Sintering.

What is a hybrid nanomaterial? A mixture between a werewolf and a vampire at the nanoscale? Actually it’s not too far from that. Listen to this deep dive to find out.

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Of course that in the world on anomaterials we can also have nanocomposites! We can add everything our immagination desires, but some of the most exciting solutions include silica nanoparticles and carbon nanotubes. Do you want to deep dive with us?

Last episode on wear. Now that we have studied everything behing wear, what are our options for preventing it?

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Unlike people, not all wear is created equal. Let’s dive deep into the 4 types of wear?

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Do you know what is behind QLED TVs? Today we’re taking a deep dive into semiconductor nanoparticles and the mechanisms that make particles like quantum dots so promissing.

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Today we’re taking a deep dive into metal nanoparticles. More specifically their optical properties. Keep listening to learn about plasmons and how they allow metal nanoparticles to be used in so many applications.

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Everyone has heard of graphene before, the super thin carbon layer that graphite is made of. But what can it actually do? What makes it so important that it can cost up to 700k€ per gram when it’s rolled in a tube? Listen to the episode to discover more.

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We’ve all heard about carbon fibers, graphene and maybe even about fulerene. But did you know that carbon atoms can be arragend in many more nanostructures? Listen to this deep dive to learn more about how these nanomaterials are changing the world.

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Why do we need to put oil on our cars? Or on the door hinges? Today we'll take a look at lubricants and the mechanism behind how they work.

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Let's keep diving deeper into the world of tribology to understand what is going on on the surface that causes friction.

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Did you know that 2-4% of a developed country’s GDP is wasted due to friction and wear? To undersatand more about it, today we have the first episode of our tribology deep dives.

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Polymers are materials remarkably versatile, and at the nanoscale they are even more impressive. Listen to this deep dive to learn more about polymer nanostructures.

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Have you ever wondered how we can create materials one atom thick? Today we’ll take a deep dive into the 2 approaches we have: top-down and bottom-up.

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Do you have any topic you’d like for us to cover? Let us know in the comments.

Take a deep dive with us into the reason behind why some times nanoparticles are formed, and other times we only get random agglomerates. Keep hearing to learn more about nanoparticles synthesis.

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This year we start our deep dives with a new fascinating topic: nanomaterials. Join us to discover a whole new world.

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Today we have a guest on the show! Daniel McCaulley, from Ultimus Engineering, will tell us all about his journey from sports nerd to a mechanical engineer. Together we talk about the importance of soft-skills (even if you don’t plan on owning a business) and what engineering really teaches us. Spoiler alert: it’s not how to solve the Bernoulli equations.

Join us to hear about:

• What engineering is actually about
• The soft-skill that you’re probably missing
• How to find a mentor (and why you need one)
• Arnold Schwarzenegger
• How to build a building
• Why design-build is a better approach to construction then your usual group project
• Not liking your first job (and why that is okay)

Check out the books we mentioned:

The 5 levels of leadership by John C. Maxwell

Escape from Nexus Labs by Carolina Sofia Carreira

If you want to know more about Ultimus Engineering follow their work through their website and LinkedIn page.

Today we’ll take a deep dive into magnetic fkux and current generated from magnetic fields. We’ll define quantities such as magnetic induction, magnetic force (Laplace-Lorentz), self-induction and magnetic energy. The relationship between magnetic field (H) and magnetic induction (B) is explained through magnetic permeability and magnetic susceptibility, distinguishing paramagnetic and diamagnetic materials.

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If you want a list of the episodes divided by course, check out this ⁠⁠link⁠⁠.