Sandia LabNews

Business partnerships, technology transfer earn Sandia four regional awards


Sandia has won four regional awards from the Federal Laboratory Consortium for its work to develop and commercialize innovative technologies.

The annual FLC awards program recognizes federal laboratories and their industry partners for outstanding technology transfer achievements.

“New technologies and partnerships continue to emerge from Sandia, showcasing the Labs’ talented workforce and our impact in national security, emergency response and scientific modeling,” said Jackie Kerby Moore, manager for Economic Development and the Labs’ FLC representative.

The consortium’s Mid-Continent and Far West regions recognized Sandia’s achievements in four areas, including:

  • Business development specialist Jason Martinez, for strengthening the Labs’ Cooperative Research and Development Agreement strategy and significantly increasing the CRADA portfolio three years in a row.
  • The Labs’ 25-year partnership with The Goodyear Tire & Rubber Co., which has produced many successful projects and advances for the tire industry and the Labs.
  • Partnership on a software toolkit for emergency planners and first responders.
  • Advances in the science of scintillators — objects that detect nuclear threats — through the development of organic glass.

The FLC Awards are considered some of the most prestigious honors in technology transfer.

“The FLC Awards provide feedback to Sandia about the value of our technology partnerships program,” said senior manager Mary Monson. “Through partnerships, we support the Labs’ missions, improve national security and benefit U.S. industry.”

Sandia winners were recognized at an awards ceremony Aug. 29 in Oklahoma City.

Strategy development leads to significant CRADA growth

Not long after he became a CRADA specialist at Sandia, Jason developed and implemented the Labs’ first CRADA strategy in its 36-year history of CRADAs. Jason won a Technology Transfer Professional of the Year award for the strategy’s impact in the Mid-Continent Region.

Jason said soon after he started working at Sandia in 2013, he met 15 engineers at a poster session who worked on various new technologies, and none of them had heard of CRADAs.

“There was a need to augment awareness that CRADAs can take place between Sandia and outside companies,” he said. “Sandia has 70 years of history and billions of dollars’ worth of taxpayer-funded research and development. We can use some of that research to benefit the economy with tech transfer.”

The strategy encourages proactive engagement with researchers and managers to better educate them about CRADAs. Martinez’s efforts with the CRADA strategy led to significant growth of Sandia’s CRADA portfolio. In 2017, 41 CRADAs were established between Sandia and private companies or universities as compared to about 20 per year prior to 2013.

CRADA STRATEGIST — Business development specialist Jason Martinez developed and implemented a strategy that strengthened Sandia’s CRADA portfolio. (Photo by Lonnie Anderson)
CRADA STRATEGIST — Business development specialist Jason Martinez developed and implemented a strategy that strengthened Sandia’s CRADA portfolio. (Photo by Lonnie Anderson)

“What I really enjoy seeing now is the excitement and enthusiasm from engineers who want to work with other companies using the CRADA mechanism,” Jason said.

Strong decades-long partnership continues

TOP TEAM — Computer scientists (left to right) Vicki Porter, Byron Hanks and Antonio Recuero from Sandia and Mohammed Sobhanie of The Goodyear Tire & Rubber Co. study images of tire technology. (Photo by Jennifer Plante)
TOP TEAM — Computer scientists (left to right) Vicki Porter, Byron Hanks and Antonio Recuero from Sandia and Mohammed Sobhanie of The Goodyear Tire & Rubber Co. study images of tire technology. (Photo by Jennifer Plante)

Sandia won a Mid-Continent Regional Partnership Award for past achievements and a continued partnership with Goodyear. The Labs and the tire company signed a CRADA in 1993, when technology transfer from national labs was in its earliest stages. The collaboration, still strong today, allows Sandia to enhance software modeling capabilities while simultaneously addressing Goodyear’s challenges.

The partners are working on several strategic projects. One supports virtual tire models to accurately predict tire performance before the tires are built, which enables Goodyear to submit tire models to car manufactures early in the design cycle. Another active project involves

modeling tire materials for the best combination of material properties. Sandia also advanced simulating the flow of turbulent air around rotating wheels, enabling noise modeling of rotating tires.

Ted Blacker, Sandia’s program manager for the Goodyear CRADA, explained why the partnership has been successful.

“We focus on strategic technical challenges where advanced technology from both sides can change the future,” he said. “Almost without fail, the new capabilities they commission us to develop — for example, model rotating, twisting and deforming tires — help us with simulations in our national security work.”

Goodyear’s engineers design every tire with Sandia-developed tools, which are run thousands of times a day, Blacker said.

New capabilities emerge for emergency planning

To improve emergency planning, exercises and protocols, Sandia, the California Fire and Rescue Training Authority (CFRTA) and the Sacramento Metropolitan Fire District collaborated to deploy SUMMIT, or the Standard Unified Modeling, Mapping and Integration Toolkit. The software, initially developed through funding from the Department of Homeland Security, helps users create scientific models and simulations. This collaboration won a Far West Region Outstanding Partnership Award.

“Sandia and the CFRTA’s strong relationship over the past four years has yielded many benefits,” said Sandia manager Nerayo Teclemariam. “CFRTA has gained early access to emerging technologies that can enhance preparedness across the state, and Sandia has gained operational partners that help guide research and development with their real-world experiences.”

SUMMIT IN ACTION — The screenshot shows the SUMMIT tool during an exercise simulating a terrorist attack in which an improvised explosive device produced a hazardous plume. The software helped exercise participants calculate health impacts and medical surge requirements, and analyze evacuation routes and timing issues. (Image courtesy of Sandia National Laboratories)
SUMMIT IN ACTION — The screenshot shows the SUMMIT tool during an exercise simulating a terrorist attack in which an improvised explosive device produced a hazardous plume. The software helped exercise participants calculate health impacts and medical surge requirements, and analyze evacuation routes and timing issues. (Image courtesy of Sandia National Laboratories)

Emergency planners need to understand consequences of disasters and the impacts of response options for natural risks such as earthquakes and wildfires, and man-made risks such as improvised explosive devices. Emergency responders also require real-time and projected event details such as infrastructure damage, possible numbers of casualties or displaced citizens.

Other technologies used by the California authority track resources and maintain situational awareness of current activities such as current weather or location and size of a fire. The modeling feature in SUMMIT provides forecasts so users can project how natural and unnatural disasters could spread, and what critical infrastructure might be affected.

SUMMIT was used in an exercise called Decisions Matter that simulated a terrorist attack involving an improvised explosive device planted next to a chlorine tanker. The explosion caused a hazardous chlorine plume, and SUMMIT helped exercise participants — including hazardous materials first responders and public health officials — calculate population health impacts and medical surge requirements, as well as analyze evacuation routes and timing issues.

“It’s been a positive, mutually beneficial experience to have a national lab deploy technologies with local responders,” said Sandia researcher Lynn Yang. “First responders are very well trained in day-to-day events; we try to help plan for the catastrophic incidents that are rarely encountered but that potentially have very large consequences.”

Organic glass nuclear detectors on the horizon

TOP GLASS — Materials scientist Joey Carlson demonstrates the ease of casting an organic glass scintillator. Casting the low-cost scintillator, which could be used in radiation detectors, takes only a few minutes as compared to other scintillators that can take several months. (Photo by Randy Wong)
TOP GLASS — Materials scientist Joey Carlson demonstrates the ease of casting an organic glass scintillator. Casting the low-cost scintillator, which could be used in radiation detectors, takes only a few minutes as compared to other scintillators that can take several months. (Photo by Randy Wong)

It could soon be more difficult to smuggle nuclear materials through U.S. ports and borders using organic glass scintillators. The small, handheld detectors engineered by a Sandia team and California-based XIA, LLC, won the Far West Region Outstanding Technology Development Award.

Sandia’s organic glass scintillator has been engineered for high detection efficiency of radioactive material without high production costs. Organic scintillators produce light in response to the presence of nuclear materials. Depending on the amount of light produced and the speed with which the light appears, the source can be identified.

The simplicity and low cost of manufacturing could allow for widespread use. Currently, threat detection scintillators are either made from expensive materials or plastics that have limited ability and cause frequent false alarms.

Due to its advantages over existing scintillator products, XIA is integrating Sandia’s organic glass scintillator into detectors for real-world

applications. The partners have been working together since 2017.

“I’m glad that we were able to meet our goal to make something higher performing and more affordable than the options that were out there, and we were able to use out-of-the-box thinking to get there,” said Joey Carlson, a Sandia materials scientist who works on the scintillators.

The team is now researching the possibility of blending other materials with the organic glass scintillators to improve detection, which could lead to broader applications.