We're not talking about exotic and expensive varieties of steel though. We're just talking about "general" or common steel and comparing it to unalloyed "common"/"general" titanium. Remember, Steel is itself an alloy, Titanium is an element.
If you start comparing Titanium alloys to Steel then the comparison gets even harder. Titanium alloys are in general stronger than steel as well as much lighter and more corrosion resistant.
> We're not talking about exotic and expensive varieties of steel though.
4340 steel isn't exotic. It's one of the most commonly used grades of steel out there, and it's much cheaper than titanium. There are steels out there with significant stronger yield strengths too. Meanwhile the highest yield strength of any Ti alloy is <1300MPa.
Titanium is still a really great material in certain applications. But it's not magic. You have to use it intelligently in the right application to get a benefit from it.
The family of materials we call steel is so fantastic, it almost a shame it’s so ubiquitous that we take it for granted. If it were invented today the front page of HN would be loaded with stories of this miracle material.
The newest generation most advanced spaceships are made from steel, see Starship.
When you go to both maximum cold (cryo fuel), and you go to maximum (reentry heat) then steel is amazing.
Aluminum would turn to butter on reentry, it would require a massive amount of heat shielding. Titanium alloys would have same issue.
Titanium alloy also become to brittle in deep cryo.
So steel beats everything in this demanding application. Its amazing.
Pure elemental titanium has much less desirable material properties than various titanium alloys which are what you encounter most commonly. It is very uncommon to encounter elemental titanium outside of a chemistry lab.
Grade 1 is still pretty common for ultralight backpacking items like pots and pans due to its ductility.
Thats cool! I didnt know there were specific common applications where grade 1 would be desirable compared to the stronger alloys available.
IIRC you can buy titanium foil that you can just make stuff out of at home.
I have some titanium crafting wire. Should be easy to find on Amazon or similar. It's a little surreal - looks similar to a roll of steel wire, but feels as lightweight as PLA. Basically the real-world version of mithril.
So called “mild steel” would be far more accurately called “iron”, the carbon content is insignificant.
The carbon content of mild steel is low but not insignificant. Pure wrought iron [0] is a dream to forge and it has a huge grain structure. It's more ductile than mild steel but it's also not as hardenable or tough as mild steel [1]. That little bit of carbon in mild steel makes a big difference.
[0] I mean real wrought iron -- the almost 100% elemental stuff -- like the Eiffel tower is made of. This is practically unobtainable today. The "wrought iron" you commonly see for sale nowadays is always mild steel. And "cast iron" is actually very high carbon steel, not iron. Cast iron so high in carbon that it's brittle and cannot be forged or easily welded.
[1] It's a myth that mild steel cannot be hardened. With a proper wetting agent added to the quench, you can harden it significantly.
Wrought iron and mild steel are more or less functionally equivalent. One other reason why cast iron is so brittle is because it contains quite a bit of silicon.
> We're not talking about exotic and expensive...
> "general" or common steel and "common"/"general" titanium
Why would you compare 'trash-quality' steel vs exotic and expensive material like Titanium?
That does not make any sence.