Abstract

Abstract Increased wear occurred in the actual refrigeration compressor when HFC refrigerants were substituted for CFCs to comply with the Montreal Protocol. A cause of this increased wear was believed to be the inferior extreme-pressure (EP) or antiwear capability of the alternative refrigerant HFC-134a as the environment gas, compared to that for CFC-I2 refrigerant which is currently used. However, under some severe conditions, it was found that the alternative also showed some antiwear or EP effect by forming a fluoride layer on a sliding surface. The reason HFC-134a did not exhibit a lubricating effect, even though it had some capability to form a fluoride layer, was that the sliding condition required for HFCs to form a protective layer was more severe than that occurring in actual compressors. The mechanism of the atmospheric effect of refrigerant gases on friction and wear is also discussed. Presented as a Society of Tribologists and Lubrication Engineers paper at the ASME/STLE Tribology Conference in San Diego, California, October 19–21, 1992 KEY WORDS: AtmosphereRefrigerantSurface Chemical AnalysisCompressors Notes Presented as a Society of Tribologists and Lubrication Engineers paper at the ASME/STLE Tribology Conference in San Diego, California, October 19–21, 1992