Imaging and Analysis of Void-defects in Solder Joints Formed in Reduced Gravity using High-Resolution Computed Tomography

Author: Struk, Peter M.
Published: January 08, 2008.
Physical Description: 1 electronic document
Additional Creators: Easton, John W. and Rotella, Anthony

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Summary

As a part of efforts to develop an electronics repair capability for long duration space missions, techniques and materials for soldering components on a circuit board in reduced gravity must be developed. This paper presents results from testing solder joint formation in low gravity on a NASA Reduced Gravity Research Aircraft. The results presented include joints formed using eutectic tin-lead solder and one of the following fluxes: (1) a no-clean flux core, (2) a rosin flux core, and (3) a solid solder wire with external liquid no-clean flux. The solder joints are analyzed with a computed tomography (CT) technique which imaged the interior of the entire solder joint. This replaced an earlier technique that required the solder joint to be destructively ground down revealing a single plane which was subsequently analyzed. The CT analysis technique is described and results presented with implications for future testing as well as implications for the overall electronics repair effort discussed.

Other Subject(s)

Mechanical Engineering

Collection

NASA Technical Reports Server (NTRS) Collection.

Note

Document ID: 20080012737.
AIAA Aerospace Sciences Meeting and Exhibit; 7-10 Jan. 2008; Reno, NV; United States.

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