Loren Data's SAM Daily™

FBO DAILY - FEDBIZOPPS ISSUE OF JUNE 14, 2015 FBO #4951
SPECIAL NOTICE

99 -- TECHNOLOGY TRANSFER OPPORTUNITY WIDE BANDWIDTH MAGNETORESISTIVE EDDYCURRENT PROBE - MAGNETORESISTIVE SENSOR-BASED PROBE FOR IMPROVED DEEP-FLAW DETECTION ANDSURFACE CHARACTERIZATION:LAR-17966-18038

Notice Date

6/12/2015
 

Notice Type

Special Notice
 

NAICS

927110 — Space Research and Technology
 

Contracting Office

NASA/Langley Research Center, Mail Stop 12, Industry Assistance Office, Hampton,VA 23681-0001
 

ZIP Code

23681-0001
 

Solicitation Number

TT-01128
 

Archive Date

6/12/2016
 

Point of Contact

Jesse C Midgett, Program Specialist, Phone 757-864-3936, Fax 757-864-8314, Email j.midgett@nasa.gov
 

E-Mail Address

Jesse C Midgett
(j.midgett@nasa.gov)
 

Small Business Set-Aside

N/A
 

Description

NASA Langley Research Center in Hampton, VA solicits inquiries from companies interested in obtaining license rights to commercialize, manufacture and market the following technology. License rights may be issued on an exclusive or nonexclusive basis and may include specific fields of use. NASA provides no funding in conjunction with these potential licenses. THE TECHNOLOGY: Scientists at NASA Langley Research Center have developed NASA Langley Research Center has developed a novel probe for eddy current sensor applications that improves detection depth and measurement resolution. Although the use of anisotropic magnetoresistive (AMR) sensors in eddy current probes to improve sensitivity at low frequencies and increase the detection depth is known, the high-frequency sensitivity and small size of these sensors is less explored. This new probe incorporates two induction sources (i.e., one high frequency and one low frequency) and an AMR sensor; the result is improved resolution in near surface material characterization, combined with simultaneous deep-flaw detection. Addition of a second high-frequency induction source, oriented to produce a magnetic field orthogonal to the first, allows for near surface anomaly detection in two dimensions. Eddy current probes are well known in the realm of nondestructive testing. Traditionally, these probes encourage the formation of eddy currents in a conductive material, and measurement of the magnetic field generated by the eddy currents allows for detection of defects and changes in material properties. Unfortunately, resolution of this type of probe is limited by the probe diameter. Additionally, poor sensitivity at low frequency and the skin effect active in conductors at high frequency precludes inspection much below near-surface depths. Incorporation of magnetoresistive materials as sensors in eddy current probes can improve instrument sensitivity. NASA researchers have developed a new probe, using a wide bandwidth AMR sensor capable of operating from direct current up to megahertz frequencies. The probe incorporates two induction sources, one low and one high frequency. A magnetizing coil (approximately 6 mm in diameter) is the low-frequency source. The coil is separated from the sensor by a mu-metal flux-focusing lens to minimize direct coupling between coil and sensor. Because the AMR sensor itself is quite small, spatial resolution of the instrument is limited by the dimensions of the induction source. To improve measurement resolution, the high-frequency source is a single strand of fine gauge magnet wire located at the bottom of the sensor, positioned perpendicularly to the length of the probe. The large difference in operating frequency of the induction sources (low, approximately 500 Hz; high, approximately 1 MHz) allows for simultaneous operation. Incorporating a second high-frequency source, a wire positioned orthogonally to the first, allows for surface imaging along two axes at a resolution of up to 0.1 mm. The improved detection depth of this probe can eliminate the need for metal panels or other pieces to be removed from aircraft for inspection, and the higher resolution near- surface imaging allows for precise characterization of surface properties. U.S. patent 8,717,012. To express interest in this opportunity, please respond to LaRC-PatentLicensing@mail.nasa.gov with the title of this Technology Transfer Opportunity as listed in this FBO notice and your preferred contact information. Please also provide the nature of your interest in the technology along with a brief background of your company. For more information about licensing other NASA-developed technologies, please visit the NASA Technology Transfer Portal at http://technology.nasa.gov/. These responses are provided to members of NASA Langleys Office of Strategic Analysis and Business Development OSACB for the purpose of promoting public awareness of NASA-developed technology products, and conducting preliminary market research to determine public interest in and potential for future licensing opportunities. If direct licensing interest results from this posting, OSACB will follow the required formal licensing process of posting in the Federal Register. No follow-on procurement is expected to result from responses to this Notice.
 

Web Link

FBO.gov Permalink
(https://www.fbo.gov/spg/NASA/LaRC/OPDC20220/TT-01128/listing.html)
 

Record

SN03763348-W 20150614/150612235549-7584282e81eca64decd3816ba7eac718 (fbodaily.com)
 

Source

FedBizOpps Link to This Notice
(may not be valid after Archive Date)

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