HRL's breakthrough development of ultralight microlattice materials recognizedOctober 5, 2012 in Chemistry / Materials Science
Researchers from HRL Laboratories are among the honorees of Popular Mechanics' 2012 Breakthrough Awards for their development of ultralight microlattice materials.
Drs. William Carter, Alan Jacobsen and Tobias Schaedler were recognized during a ceremony October 4 at the Hearst Tower in New York City. Breakthrough Awards are presented annually by the magazine to "innovators whose work will transform the world in years to come."
The researchers' innovative "microlattice" architected material and the novel fabrication process developed at HRL to produce it were first announced in 2007. Demonstration of ultralight metallic microlattices was published in the November 17, 2011, issue of Science.
The iconic image of a super light metallic microlattice material atop a tuft of dandelion shows the dramatic possibilities offered by the microlattice fabrication process developed at HRL. With a density of only 0.9 mg/cc, the material developed in 2011 was at the time the lightest ever, approximately one hundred times lighter than Styrofoam. Its unique "microlattice" cellular architecture consisted of a lattice of interconnected nickel tubes with a wall thickness of 100 nanometers, 1,000 times thinner than a human hair.
Since their 2011 announcement, the HRL researchers have been investigating the numerous potential uses for ultralight microlattice materials. By modifying the cellular architecture—for example, the wall thickness, tube diameter or cell size—a wide range of densities and properties can be achieved. Exceptionally high strength and stiffness per weight can be reached, and the unique lattice structure enables unprecedented mechanical behavior for a metal, including complete recovery from compression exceeding 50% strain and extraordinarily high energy absorption.
The material, initially developed for the Defense Advanced Research Projects Agency, could be used for lightweight structures, battery electrodes, catalyst supports, and acoustic, vibration or shock energy damping.
The HRL researchers attended the Breakthrough conference, during which Dr. Carter participated on a 45-minute panel on "The Innovation Economy." The Breakthrough Awards were presented that evening during a reception and dinner.
Provided by HRL Laboratories
"HRL's breakthrough development of ultralight microlattice materials recognized" October 5, 2012 http://phys.org/news/2012-10-hrl-breakthrough-ultralight-microlattice-materials.html