Suck My Glock
Member
I was just reading this tech article on a new "superalloy" metal devised specifically for 3D printing high-stress components for gas turbines.
https://www.freethink.com/hard-tech/superalloy-3d-printed
As the article lays out, the powdered metal is a blend of 42% aluminum, 25% titanium, 13% niobium, 8% zirconium, 8% molybdenum, and 4% tantalum. When sintered into into micro-welded form, it is strong, lightweight, and incredibly heat resistant.
As the article explains, "These characteristics are especially important for the turbines used in power plants, which account for approximately 73% of all electricity generation worldwide. After all, the higher the temperature of the gas driving the turbines, the faster they spin and the more efficient they become.
When heated to 800°C (1472°F) — a common temperature in power plant turbines — this superalloy remained stronger and more lightweight than many others designed for a similar purpose. This breakthrough suggests potential applications beyond power turbines, particularly in aerospace where materials need to be strong, lightweight, and resistant to extreme temperature variations."
It dawned on me that this blended superalloy will be highly suited to use in fabrication of new 3D printed suppressor designs.
Keep an eye on new stuff in the suppressor pipeline in the future.
https://www.freethink.com/hard-tech/superalloy-3d-printed
As the article lays out, the powdered metal is a blend of 42% aluminum, 25% titanium, 13% niobium, 8% zirconium, 8% molybdenum, and 4% tantalum. When sintered into into micro-welded form, it is strong, lightweight, and incredibly heat resistant.
As the article explains, "These characteristics are especially important for the turbines used in power plants, which account for approximately 73% of all electricity generation worldwide. After all, the higher the temperature of the gas driving the turbines, the faster they spin and the more efficient they become.
When heated to 800°C (1472°F) — a common temperature in power plant turbines — this superalloy remained stronger and more lightweight than many others designed for a similar purpose. This breakthrough suggests potential applications beyond power turbines, particularly in aerospace where materials need to be strong, lightweight, and resistant to extreme temperature variations."
It dawned on me that this blended superalloy will be highly suited to use in fabrication of new 3D printed suppressor designs.
Keep an eye on new stuff in the suppressor pipeline in the future.
