Integrity Score 4482
No Records Found
No Records Found
No Records Found
3D printing promises more efficient ways to make custom explosives and rocket propellants
By Monique McClain, Purdue University
Imagine you’re driving to work on a rainy day, when a distracted, reckless driver hits your car out of nowhere. With a “boom,” an air bag deploys faster than you can blink your eyes to save your life.
That air bag deployed rapidly thanks to an energetic material called sodium azide, which generates nitrogen gas during a chemical reaction to inflate your airbag. But what’s an energetic material?
Energetic materials include propellants, pyrotechnics, fuels and explosives, and they’re used in all sorts of settings.
Uses of energetic materials include flares, matches, solid rocket boosters, gun propellants, hot thermite welding used to fuse materials together, fireworks and the explosive special effects in your favorite action movie.
Energetic materials come in many shapes and sizes, but they’re often in a solid form and release a lot of energy through burning or exploding, depending on their shape and the conditions they’re operating in.
I’m a mechanical engineering professor who studies energetic materials. Making energetic materials isn’t easy, but developments in 3D printing could make customization easier, while allowing for more potential scientific applications.
The role of geometry
How energetic materials are made affects the shapes that they come in and how they release energy over time. For example, solid rocket propellants are made similar to a cake where a stand mixer stirs the “batter,” which is mostly made of ammonium perchlorate, aluminum and a rubbery binder, before it’s poured into a pan. The “cake” solidifies in the pan while it bakes in the oven.
Typically, rocket propellants have a cylindrical shape, but with a rod in the center. The rod often has a specific cross-sectional shape, like a circle or a star. When the propellant solidifies, the rod is removed, leaving the core shape behind.
The core shape affects how the propellant burns, which can affect the thrust of the motor it’s used in.
Read Full Story https://theconversation.com/3d-printing-promises-more-efficient-ways-to-make-custom-explosives-and-rocket-propellants-214126