Difference between revisions of "Micro-Melt PD1"
From Spydiewiki
Jump to navigationJump to searchThatWouter (talk | contribs) |
ThatWouter (talk | contribs) |
||
(3 intermediate revisions by the same user not shown) | |||
Line 17: | Line 17: | ||
{{Tableheading}}'''Vanadium''' | {{Tableheading}}'''Vanadium''' | ||
|- | |- | ||
| | |1.10 | ||
| | |7.75 | ||
|/ | |/ | ||
|/ | |/ | ||
|/ | |/ | ||
|0. | |0.25 | ||
|1.60 | |||
|/ | |/ | ||
|/ | |/ | ||
|/ | |/ | ||
| | |1.20 | ||
| | |/ | ||
| | |1.10 | ||
|2.35 | |||
|} | |} | ||
Latest revision as of 13:35, 25 May 2021
Micro-Melt PD#1 consists of:
Carbon | Chromium | Cobalt | Niobium | Copper | Manganese | Molybdenium | Nickel | Nitrogen | Phosphorus | Silicon | Sulfur | Tungsten | Vanadium |
1.10 | 7.75 | / | / | / | 0.25 | 1.60 | / | / | / | 1.20 | / | 1.10 | 2.35 |
From Spyderco's website:
Micro-Melt PD#1 is an air-hardening cold-work die steel. PD#1's unique alloy composition gives it wear resistance significantly superior to conventional steels like D2, while still maintaining excellent toughness. Thanks to Carpenter's advanced Micro-Melt powder metallurgy process, PD#1 possesses an extremely fine microstructure and uniform carbide distribution, as well as the enhanced compressive strength necessary for the demands of tooling applications. Collectively, these qualities give it a unique combination of wear resistance and toughness that make it ideal for use as a blade steel.[1]