Keywords
- Show all (85)
- Additive Manufacturing (37)
- Sensors (16)
- 3D Printing (7)
- Ground Penetrating Radar (4)
- Defense Technologies (3)
- Manufacturing Improvements (3)
- National Security Forensics (2)
- Synthesis and Processing (2)
- Electric Grid (1)
- High Explosives (1)
- Manufacturing Simulation (1)
- Microfabrication (1)
- Precision Engineering (1)
- Spectrometers (1)
- Volumetric Additive Manufacturing (1)
- (-) Manufacturing Automation (2)
- (-) Imaging Systems (1)
- (-) Material Design (1)
By combining 3D printing and dealloying., researchers at LLNL have developed a method for fabricating metal foams with engineered hierarchical architectures consisting of pores at least 3 distinct length scales. LLNL’s method uses direct ink writing (DIW), a 3D printing technique for additive manufacturing to fabricate hierarchical nanoporous metal foams with deterministically controlled 3D…
LLNL's high fidelity hydrocode is capable of predicting blast loads and directly coupling those loads to structures to predict a mechanical response. By combining this code and our expertise in modeling blast-structure interaction and damage, along with our access to experimental data and testing facilities, we can contribute to the design of protective equipment that can better mitigate the…