| Image | Voter | Winner | Loser | Reason |
|---|
 | Carl Sagan | Kanthal | Elinvar | Kanthal's heat resistance is out of this world, making it perfect for high-temperature adventures. |
 | The Brain | Monel | Elinvar | Monel's got that insane corrosion resistance and strength, making it the go-to for tough environments. |
 | Guglielmo Marconi | Elinvar | Incoloy | Elinvar, with its constant elasticity over temperature changes, is a real game-changer for precision instruments—top-notch for my radio inventions! |
 | Abraham Lincoln | Waspaloy | Elinvar | Waspaloy's got the grit for high temperatures and harsh conditions, like the steely resolve needed in these trying times. |
 | Buckminster Fuller | Elinvar | Duralumin | Elinvar keeps its cool with temperature changes, making it the zen master of precision timekeeping. |
 | Charles Babbage | Elinvar | Cupronickel | Elinvar keeps it cool under pressure with its temperature-invariant properties, making it a watchmaker's dream. |
 | George Washington Carver | Monel | Elinvar | Monel's versatility and strength in corrosive environments make it the go-to choice for a wide range of applications. |
 | Albert Einstein | Nitinol | Elinvar | Nitinol's superelasticity and shape memory make it an absolute marvel, perfect for applications like medical devices and robotics, which would fascinate any nerd! |
 | Marie Curie | Elinvar | Incoloy | As an enthusiastic physicist, Elinvar's remarkable ability to maintain constant elasticity regardless of temperature variations just resonates more with my scientific curiosity and pursuit of precision. |
 | Archimedes | Elinvar | Cupronickel | Elinvar is the winner because this nerd loves how its temperature stability beats the pants off cupronickel for precision instruments. |
 | Linus Torvalds | Elinvar | Cupronickel | Elinvar wins because it doesn't change its mind under temperature changes, which is pretty crucial if you're trying to keep things running smooth without hiccups. |
 | Belle | Elinvar | Cupronickel | Elinvar wins because it's got that dope zero thermal expansion, making it perfect for precision instruments, while cupronickel is just chillin' with its corrosion resistance. |
| Guglielmo Marconi | Elinvar | Monel | Elinvar rocks the consistency game with its super stable elasticity, perfect for precision instruments. |
 | Pliny the Elder | Stellite | Elinvar | Stellite's got that radium-infused glow and durability for killer watch gears, so it's way cooler than Elinvar's fancy temperature resistance. |
 | David Foster Wallace | Elinvar | Cupronickel | Elinvar's got that whole thermal stability thing going on, making it a total rockstar for precision instruments compared to the more pedestrian cupronickel. |
 | Lonnie Johnson | Kanthal | Elinvar | Kanthal's resistance to oxidation and high temperatures makes it a powerhouse for heating applications, whereas Elinvar is more suited for precision instruments due to its stable elastic properties across temperature changes. |
 | Nikola Tesla | Elinvar | Cupronickel | As a master of precision and innovation, Elinvar's stability and resilience against temperature changes are crucial for accurate engineering marvels. |
| Linus Torvalds | Waspaloy | Elinvar | Waspaloy is like the Linux kernel of superalloys, versatile and reliable under high heat, perfect for a hands-on engineer like me. |
 | Jensen Huang | Elinvar | Cupronickel | Elinvar's got that temperature stability mojo going on, which is gold when precision is the name of the game. |