Accession Number : ADA308124

Title :   Methods for Improvement of the Stable Isotope Cleaning Performance Evaluation Procedure (CPEP).

Descriptive Note : Final rept.,

Corporate Author : BATTELLE MEMORIAL INST COLUMBUS OH

Personal Author(s) : Schumacher, P. M. ; Chuang, J. C. ; Chauhan, S. P.

PDF Url : ADA308124

Report Date : 14 SEP 1993

Pagination or Media Count : 118

Abstract : The Aerospace Guidance and Metrology Center (AGMC) at Newark Air Force Base (NAFB), Ohio, has been using cleaning agents such as 1,1,1-trichloroethane (TCA) and 1,1,2-trichloroethane, 1,2,2-trifluoroethane (Freon 113) for repair of inertial guidance equipment. Both of these cleaning agents have been classified as stratospheric ozone layer depleting substance (OLDS). Therefore, AGMC is interested in replacing these with other cleaning agents such as aqueous detergents. In order to assure that reliability and maintainability levels are not degraded when OLDS are phased out, a method is required to validate that the cleaning capability of the suggested alternative is at least as good as that of an existing, proven cleaning agent. The current methods used by AGMC to evaluate cleanliness are not effective when the parts being cleaned are composed of irregular or severe geometries as is the case for precision gyroscopes and accelerometers repaired at AGMC. Therefore, AGMC funded Battelle to develop and demonstrate a suitable cleaning performance evaluation procedure (CPEP) for quantifying cleanliness. The modified CPEP developed and demonstrated in this project involved two phases. In Phase I, the contaminants which are present in the current cleaning processes were identified to select synthetic inorganic particulate and organic contaminants. In Phase II, unique, stable-isotopes of these contaminants were introduced into the parts followed by cleaning of these parts with various cleaning agents. The amounts of these unique isotopes extracted, as determined by mass spectroscopy (MS) provides a measure of cleaning efficiency. The advantages of this technique are that the analysis is not complicated by introduction or presence of native or airborne contaminants and no special safety precautions needed for work with radioisotopes are necessary.

Descriptors :   *PERFORMANCE TESTS, *DETERGENTS, *CLEANING COMPOUNDS, *OZONE LAYER, *RADIOACTIVE ISOTOPES, TEST AND EVALUATION, MEASUREMENT, ACCELEROMETERS, WATER, AIRBORNE, EFFICIENCY, MASS SPECTROSCOPY, AEROSPACE SYSTEMS, MAINTAINABILITY, RELIABILITY, REPAIR, ORGANIC MATERIALS, PRECISION, SAFETY, CONTAMINANTS, PARTICULATES, GUIDANCE, AIR FORCE FACILITIES, CLEANING, GYROSCOPES, INERTIAL GUIDANCE, METROLOGY, INORGANIC MATERIALS, STRATOSPHERE.

Subject Categories : Inorganic Chemistry
      Organic Chemistry
      Physical Chemistry
      Solvents, Cleaners, and Abrasives
      Isotopes

Distribution Statement : APPROVED FOR PUBLIC RELEASE