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FBO DAILY - FEDBIZOPPS ISSUE OF JULY 26, 2017 FBO #5724
SPECIAL NOTICE

99 -- TECHNOLOGY TRANSFER OPPORTUNITY: Multi-Component Force Transducer Calibration and Verification Systems: LAR-TOPS-215 Case Number(s): LAR-18065-1, LAR-16020-1, LAR-18318-1

Notice Date

7/24/2017
 

Notice Type

Special Notice
 

NAICS

927110 — Space Research and Technology
 

Contracting Office

NASA/Langley Research Center, Mail Stop 144, Industry Assistance Office, Hampton, Virginia, 23681-0001
 

ZIP Code

23681-0001
 

Solicitation Number

TT01240
 

Archive Date

8/8/2018
 

Point of Contact

Jesse C Midgett, Phone: 7578643936
 

E-Mail Address

j.midgett@nasa.gov
(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 TECHNOLOGIES: Scientists at NASA Langley Research Center have developed three techniques and systems to calibrate and validate wind-tunnel force balances and other multi-component force transducers. The first is the Single Vector Calibration System (SVS), which uses a single dead-weight for calibration and has been in active use at NASA for over 15 years. The second system is the In-Situ Load System (ILS). The ILS is based on the same fundamental concept as the SVS, but is designed for in-situ verification just prior to testing. Building off of the SVS and ILS, the third system is the Variable Acceleration Force Calibration System (VACS), which shares the single-vector force application concept, but generates those forces differently by keeping the mass constant and varying the acceleration. These techniques and systems provide for less complex and less labor-intensive calibration and verification of multi-component force transducers. This portfolio of technologies has been developed for calibrating and verifying wind-tunnel force balances, although the technologies also have other multi-component force transducer applications. A force balance is a complex structural spring element instrumented with strain gauges for measuring three orthogonal components of aerodynamic force (normal, axial, and side force) and three orthogonal components of aerodynamic torque (rolling, pitching, and yawing moments). In order to set the independent variables of applied load to calibrate a force balance, a high-precision mechanical system is required. Over the past decade, advancements in calibration and verification systems have been developed at NASA to increase efficiency, enhance availability, and improve accuracy. The first system is the Single-Vector Calibration System (SVS). The system exploits a single deadweight loading to create variable, multi-component loads through rotation and offset of the point of load application with respect to the balance moment center. The primary components include a multiple-degree-of-freedom load-positioning system, a three-axis orthogonal accelerometer system, and calibrated weights. The SVS enables the efficient execution of a formal experimental design, is relatively inexpensive to manufacture, requires minimal time to operate, and provides a high level of accuracy. The second system is the In-Situ Load System (ILS), which is pictured in the cover photo. The ILS is based on the SVS's force-vector concept where a single deadweight load is used to apply up to six loads simultaneously. The ILS provides for complex multiple-component load verification prior to testing that is not typically done with current methods. The ILS also provides axial force (aerodynamic drag) verification in wind-tunnel applications, which is often the aerodynamic component of highest interest that is rarely verified during the checkout process. The third system is the Variable Acceleration Force Calibration System (VACS). The VACS employs a novel loading technique using a minimal number of weights and varying the centripetal force to obtain the complete set of forces necessary for the calibration. A proof-of-concept version of the new variable acceleration system has been shown to be capable of performing force balance calibration. NASA is seeking to license these technologies commercially in the United States. US Patents 9,052,250; 6,629,446. To express interest in this opportunity, please respond to LARC-DL-technologygateway@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 how you foresee using the technology along with a brief background of your company. Additionally, please identify any non-US interests/subsidiaries in your company as well. For more information about licensing other NASA Langley-developed technologies, please visit the NASA Langley’s Technology Gateway at https://technologygateway.nasa.gov/ These responses are provided to members of NASA Langley’s 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/TT01240/listing.html)
 

Record

SN04592907-W 20170726/170725085442-b8fd80a682dc5152d7f81a501468edea (fbodaily.com)
 

Source

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

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