Adaptive Laser Sintering System for In-Space Printed Electronics

Adaptive Laser Sintering System for In-Space Printed Electronics

Award Information
Agency: National Aeronautics and Space Administration
Branch: N/A
Contract: NNX17CM41P
Agency Tracking Number: 174354
Amount: $124,760.00
Phase: Phase I
Program: SBIR
Awards Year: 2017
Solicitation Year: 2017
Solicitation Topic Code: H7.01
Solicitation Number: N/A
Small Business Information
13170B Central Ave SE Suite 310, Albuquerque, NM, 87109-5841
DUNS: N/A
HUBZone Owned: N
Woman Owned: N
Socially and Economically Disadvantaged: N
Principal Investigator
 Michael Renn
 Principal Investigator
 (651) 641-2850
 mrenn@optomec.com
Business Contact
 David Ramahi
Title: President and CEO
Phone: (505) 314-1239
Email: dramahi@optomec.com
Research Institution
N/A
Abstract
The goal of this project is to enhance the Optomec Aerosol Jet(R) technology for additive manufacturing by introduction of an Adaptive Laser Sintering System (ALSS) module to enable a fully automated system for printed electronics. The Optomec-Harding team seeks to reduce the localized laser sintering concept to practice by developing ALSS with in-situ automated adjustment of laser power and processing time. ALSS will include a laser for sintering with sensors to monitor the process so that any flaws in the printed electronics circuitry can be repaired with minimal human intervention. The benefit will be two-fold: it will enable Optomec, Inc. to expand its commercial applications of the Aerosol Jet technology in printed electronics industry, and to pave the way for the use of this advanced technology in the next generation of human space exploration. The success of this endeavor will be of vital importance to the NASA's in-space, on-demand manufacturing capabilities to support the unique challenges of long-duration human spaceflight. The developed automated adaptive in-line quality control system with ALSS is also applicable to that required for long-duration human space missions with minimal need for astronaut intervention, when printing conformal electronics and sensors onto flexible substrates of various geometrical complexities using the Aerosol Jet technology. The liquid metal nanoparticle (NP) inks as printed are not conductive enough for required circuit functionality; they must be transformed to solid metal path by a sintering at an elevated temperature. To reduce sintering time and exposure of the substrate to damaging temperatures, localized laser sintering has been shown to be promising. The challenge to commercialization of laser sintering is controlling the laser power and processing time required for effective sintering of metal NP inks while avoiding thermal damage to substrate, which will be addressed by the ALSS.

* Information listed above is at the time of submission. *

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