9 September 2014 Evaluating the bakeout effectiveness of RTV-S691 silicone adhesive by measuring outgassing rate
Author Affiliations +
Abstract
Outgassing rate measurements are basically performed for fresh materials, e.g. just cured adhesives, paints, etc. and reveal a lot about how the material can behave as a contamination source. It is also important to determine the bakeout process sufficiently. In the present study, a typical silicone adhesive for use in space, RTV S-691, Wacker Chemie, was selected for the measurement. Two cured specimens, 40 × 40 mm in size, were applied for several isothermal tests under identical conditions: a specimen at 125 degrees C for 144 hours with CQCM at -193 degrees C to measure TML. Consequently, it was determined that the TML and TML rate could be reduced by bakeout as expected. It also emerged that a longer bakeout, i.e. a longer cumulative bakeout time, for the material would reduce the TML and TML rate more effectively. The results suggest that bakeout mainly affects the behavior in the “low-rate” phase, whereby the TML rate curve can be divided into two phases. The elapsed time for a specimen can also be considered the cumulative test time. Based on the cumulative elapsed time, the TML rate curve is replotted and a correlation emerges between the cumulative bakeout time and TML rate. The first measurement data of TML and the TML rate could be affected by the stored time from cure, which might result from the change in unreacted substances declining as the stored time elapsed.
© (2014) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Eiji Miyazaki, Yuka Miura, Osamu Numata, Riyo Yamanaka, Susumu Baba, Junichiro Ishizawa, Yugo Kimoto, Takashi Tamura, "Evaluating the bakeout effectiveness of RTV-S691 silicone adhesive by measuring outgassing rate", Proc. SPIE 9196, Systems Contamination: Prediction, Measurement, and Control 2014, 91960A (9 September 2014); doi: 10.1117/12.2061774; https://doi.org/10.1117/12.2061774
PROCEEDINGS
8 PAGES


SHARE
Back to Top