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Ultrasonic Method for Deployment Mechanism Bolt Element Preload VerificationDeployment mechanisms play a pivotal role in mission success. These mechanisms often incorporate bolt elements for which a preload within a specified range is essential for proper operation. A common practice is to torque these bolt elements to a specified value during installation. The resulting preload, however, can vary significantly with applied torque for a number of reasons. The goal of this effort was to investigate ultrasonic methods as an alternative for bolt preload verification in such deployment mechanisms. A family of non-explosive release mechanisms widely used by satellite manufacturers was chosen for the work. A willing contractor permitted measurements on a sampling of bolt elements for these release mechanisms that were installed by a technician following a standard practice. A variation of approximately 50% (+/- 25%) in the resultant preloads was observed. An alternative ultrasonic method to set the preloads was then developed and calibration data was accumulated. The method was demonstrated on bolt elements installed in a fixture instrumented with a calibrated load cell and designed to mimic production practice. The ultrasonic method yielded results within +/- 3% of the load cell reading. The contractor has since adopted the alternative method for its future production. Introduction
Document ID
20150004065
Acquisition Source
Goddard Space Flight Center
Document Type
Conference Paper
Authors
Johnson, Eric C.
(Aerospace Corp. Los Angeles, CA, United States)
Kim, Yong M.
(Aerospace Corp. Los Angeles, CA, United States)
Morris, Fred A.
(Lockheed Martin Space Systems Co. Littleton, CO, United States)
Mitchell, Joel
(Lockheed Martin Space Systems Co. Littleton, CO, United States)
Pan, Robert B.
(Aerospace Corp. Los Angeles, CA, United States)
Date Acquired
April 2, 2015
Publication Date
May 1, 2014
Publication Information
Publication: The 42nd Aerospace Mechanism Symposium
Subject Category
Quality Assurance And Reliability
Mechanical Engineering
Instrumentation And Photography
Distribution Limits
Public
Copyright
Public Use Permitted.
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