If it is the same type of spoon I’m thinking of - they are indeed titanium! Forged titanium, at least the version I got.
Because it’s a small part with no significant critical tolerances, it’s also only $10-$20 for a few grams of metal, and only 5x as expensive as a typical spoon.
The equipment required to forge it is also doable in a garage due to the small surface area the forging is happening over (force required goes up as the surface area goes up - which is squared for the dimensions, so very rapidly gets very large).
It isn’t truly impossible to machine titanium (generally - like most metals the alloy, heat treatment, etc. matter a lot), it’s just so much harder and requires so much more expensive tooling that it’s hard to justify economically except in niche applications.
It’s improving though with better insert based machining tools and hardier insert material.
I’ve heard of some impressive titanium 3D printing using sintering techniques that also have a lot of promise.
Many of the alloys (many more than say aluminum) are nearly impossible due to material characteristics and do require EDM to machine.
Decades ago I happened to get a tour of the Edwards Air Force Base SR71 hangar (near the end of their effective time in service) and the machinists there were very proud of their EDM work for this reason.
Because it’s a small part with no significant critical tolerances, it’s also only $10-$20 for a few grams of metal, and only 5x as expensive as a typical spoon.
The equipment required to forge it is also doable in a garage due to the small surface area the forging is happening over (force required goes up as the surface area goes up - which is squared for the dimensions, so very rapidly gets very large).
Compare that to say an engine block, wing spar in an airplane, or fighter jet bulkhead [https://www.businesswire.com/news/home/20151007005865/en/Alc...] and it gets dramatically more expensive and harder.
It isn’t truly impossible to machine titanium (generally - like most metals the alloy, heat treatment, etc. matter a lot), it’s just so much harder and requires so much more expensive tooling that it’s hard to justify economically except in niche applications.
It’s improving though with better insert based machining tools and hardier insert material.
I’ve heard of some impressive titanium 3D printing using sintering techniques that also have a lot of promise.
Many of the alloys (many more than say aluminum) are nearly impossible due to material characteristics and do require EDM to machine.
Decades ago I happened to get a tour of the Edwards Air Force Base SR71 hangar (near the end of their effective time in service) and the machinists there were very proud of their EDM work for this reason.