TheDefence Science and Technology Laboratory(DSTL), an executive agency sponsored by theMinistry of Defence(MOD) of the UK, has started to develop 3D printed explosives.
The project aims to create new possibilities for various explosive effects using intricate designs enabled by 3D printing, and also to reduce transportation and storage costs.
Applying additive manufacturing to produce new energetic formulations is part of the MOD’s Future Energetics Project, established to train experts and develop new technologies.
The Future Energetics Project
DSTL aims to ensure the contribution of innovative science and technology in the defense and security sector of the UK. Recognizing the importance of energetic experts for the security sector, the Ministry of Defence has established the Future Energetics Project in 2015. Since then, MOD has invested nearly £10 million in training experts, developing technologies and equipment.
DSTL states, “Energetics knowledge and experience is vital for the UK to develop the best equipment, platforms and operational assets. We need to know how energetic systems damage or defeat our platforms and how we can counter threats, so we can advise on things like countermeasures, detection, safety, transportation and disposal, all while working with explosives in accordance with legislation.”
The Future Energetics Project includes blast modeling, explosive trials, chemical synthesis, novel energetics manufacture, and small-scale hazard testing. To develop new energetic materials and methods, scientists of the project have started to implement additive manufacturing.
Applying 3D printing to produce explosive formulations, is currently being tested. Since the different explosive effects are influenced by the geometry of the charge, scientists of this project examine the energetic characteristics, enabled to develop by additive manufacturing.
Focusing on material extrusion and printer capabilities, the project aims to develop individual shapes for warzone missions. 3D printing customized charges on-demand may also reduce the cost of transportation and material usage.
A statement from DSTL explains, “Having this capability also means we can rigorously test and evaluate vehicles and systems against current and emerging threats to ensure they offer the required protection for armed forces. We also need to be able to support the police and counter-terrorism units who deal with explosions and homemade devices, such as the Manchester bombing in 2017.”
To make the process of mixing high explosive materials safer, DSTL uses acoustic energy instead of physical blades. Therefore, formulations are manufactured in a LabRAM resonant acoustic mixer.
Further work in 3D printing explosives
To reduce cost and improve weaponry efficiency,的南国ian government has awarded USD $2 million to research institutionsto develop methods to 3D print energetic materials. Professor David Lewis, a polymer specialist at the awardedFlinders University, said, “The ability to develop systems like this is the next generation of additive manufacturing and is the key to this technology becoming mainstream.”
In Indiana, professors ofPurdue Universityhave3D printed energetic materialswithout voids. Professor Jeffrey Rhoads commented, “We have shown that we can print these energetic materials without voids, which is key. Voids are bad in energetic materials because they typically lead to inconsistent, sometimes catastrophic burns.”
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