I know; one of they ways they effected cooling time was covering the blade in various amounts of slurry before quenching it to allow different parts to cool quicker. The hamon is created this way as a side effect. Also, I'm a math minor, I can run calculations from the transcendent to the differential!Rynuusuke said:1. Take a look at how the metal lamination is done then how it cools. If you even have the background run the calculations for the metal cooling rates. The cooling rates will effect grain development and thus the hardness. There are more ways than just adding carbon to increase the hardness.
2. The drill bit was a good approximation for a garage-junkie to understand the difference between a high-strength and brittle steel against a more ductile one. Well, I guessed I learned trying to explain or help you is a waste of time and effort. One last thing, try reading this, might help you grasp some of the concept of steels and their properties.
Amagic said:Rapier and sword-breaker is the only efficient dual wielding style I know, rest sounds rather impractical.
Rynuusuke said:PS. I am not going to waste any more of my valuable time...Dealing with you is very far below my paygrade.
Besides, if we're talking about paygrades, Software and Hardware engineers have a higher median salary than material engineers, according to the US BLS.FrisianDude said:Rynuusuke said:PS. I am not going to waste any more of my valuable time...Dealing with you is very far below my paygrade.
From this part I can't but conclude that you are thirteen and a ****.
MadocComadrin said:I know; one of they ways they effected cooling time was covering the blade in various amounts of slurry before quenching it to allow different parts to cool quicker. The hamon is created this way as a side effect. Also, I'm a math minor, I can run calculations from the transcendent to the differential!Rynuusuke said:1. Take a look at how the metal lamination is done then how it cools. If you even have the background run the calculations for the metal cooling rates. The cooling rates will effect grain development and thus the hardness. There are more ways than just adding carbon to increase the hardness.
All in all, you really just dodged the point. You had the lamination order wrong. Don't try to cover yourself by going into detail about the properties of carbon steel.
2. The drill bit was a good approximation for a garage-junkie to understand the difference between a high-strength and brittle steel against a more ductile one. Well, I guessed I learned trying to explain or help you is a waste of time and effort. One last thing, try reading this, might help you grasp some of the concept of steels and their properties.
Aye, but that wasn't the point I was making. I don't need an approximation for a garage junkie, I was looking for an experiment based solely on the scientific method to test the properties of flexure, shearing, compressive, and tensile strength of steels with various amounts of carbon content. If you can't grasp that, your degree isn't worth the paper it's printed on.