Advanced Manufacturing and Materials Engineering

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A Multidisciplinary Approach to Manufacturing

The scope of our Advanced Manufacturing and Materials Engineering includes additive manufacturing, material development, systems design, design optimization and implementation, and specialized manufacturing capabilities not available outside of the Laboratory.

Our multidisciplinary approach enables the rapid invention and development of advanced materials and the creation of revolutionary manufacturing processes, all with a cost-effective, low-waste ethos. From running experiments to testing new designs to spearheading new ways to fabricate components, our teams transform cutting-edge concepts into reality in pursuit of Lawrence Livermore National Laboratory’s mission-driven science and technology.

Our research and development spans a range of efforts such as:

  • Creating innovative materials for energy generation or storage 
  • Architecting materials with previously unachievable properties 
  • Inventing revolutionary new additive manufacturing processes and feedstock materials 
  • Advancing nondestructive characterization 
  • Engineering biomaterials for bioresilience 
  • Building advanced optics used in satellites and telescopes 
  • Machining high precision parts and conducting dimensional inspection to confirm their specifications 
  • Designing and fabricating components and materials for extreme environments, including high-power laser facilities, nuclear reactors, and aerospace applications 
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Project Highlights

From revolutionary 3D-printing and liquid metal jetting droplet-on-demand techniques to microcapsules that capture carbon, LLNL’s work in advanced manufacturing and materials engineering is changing the face of fabrication.

A 3D-printed hierarchical lattice glows lavender against a dark background

Cellular Fluidics 

Inspired by the way plants absorb and distribute water and nutrients, researchers have developed a groundbreaking method for transport via a 3D-printed lattice and capillary action. Read Full Article

A 3D-printed hierarchical lattice glows lavender against a dark background

Carbon Capture Microcapsules 

Using the same baking soda found in most grocery stores, LLNL scientists and engineers, along with colleagues from Harvard and the University of Illinois at Urbana-Champaign, created a significant advance in carbon dioxide capture technology.Read Full Article

A 3D-printed hierarchical lattice glows lavender against a dark background

Metal Jetting 

Liquid metal jetting (LMJ) droplet-on-demand (DoD) printing is a new method of additive manufacturing that can fabricate complex parts while reducing waste and allowing for low-intervention processing of a variety of materials with a brisk turnaround time.Read Full Article

A 3D-printed hierarchical lattice glows lavender against a dark background

Volumetric Additive Manufacturing 

Researchers at LLNL, in collaboration with MIT, University of Rochester, and UC Berkeley, have invented 3D printing of an entire structure at once, or volumetrically, by using intersecting light beams to fabricate complex 3D polymer structures from photosensitive liquids. The new method revolutionizes 3D printing—also known as additive manufacturing—which is normally done in a layer-by-layer fashion rather than this new volume-at-once technique.Read Full Article

A 3D-printed hierarchical lattice glows lavender against a dark background

James Webb Space Telescope Grating Prism 

NASA’s James Webb Space Telescope (JWST) has captured unprecedented and detailed views of the universe, with the release of its first full-color images and spectroscopic data.Read Full Article

Related Facilities and Centers 

Fitting together two pieces at a table in HEAF

Take Your Place on the
Leading Edge

Our work is fundamentally transforming the field of advanced manufacturing and materials engineering. Learn more about what a career with LLNL Engineering might have in store for you.

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