Patent Publication Number: US-5152926-A

Title: Refrigerant lubricant compositions

Description:
This application is a continuation-in-part of Ser. No. 07/360,984 filed Jun. 2, 1989, now U.S. Pat. No. 4,971,712 issued Nov. 20, 1990. 
    
    
     FIELD OF THE INVENTION 
     This invention relates to lubricants used with refrigerants in compression refrigeration and air-conditioning systems. More particularly, it relates to lubricants for use with tetrafluoroethanes, e.g. 1,1,1,2-tetrafluoroethane (FC-134a), 1,1,2,2-tetrafluoroethane (HFC-134), and of lesser importance, pentafluoroethane (HFC 125). These refrigerants are being considered as replacements for dichlorodifluoromethane (CFC-12), particularly in automotive air conditioning systems. This invention also relates to the additives useful in refrigerant lubricant compositions. 
     BACKGROUND OF THE INVENTION 
     Refrigeration systems that use CFC-12 as the refrigerant generally used mineral oils to lubricate the compressor. (See for example the discussion in Chapter 32 of the 1980 ASHRAE Systems Handbook.). CF-12 is completely miscible with such oils throughout the entire range of refrigeration system temperatures, i.e., -45° C. to 65° C. In automotive air-conditioning, paraffinic and naphthenic oils of about 500 SUS viscosity of 100° F. are used with CFC-12. These oils have &#34;pour points&#34; below -20° C. and are completely miscible with the CFC-12 refrigerants over the range of temperatures from -10° C. to 100° C. Consequently, oil which dissolves in the refrigerant travels throughout the refrigeration loop in the air conditioning system and returns with the refrigerant to the compressor. It does not separate during condensation, although it may accumulate because of the low temperature when the refrigerant is evaporated. At the same time, this oil which lubricates the compressor will contain some refrigerant which, in turn, may affect its lubricating properties. 
     When substituting HFC-134a or HFC-134 for CFC-12 in these refrigeration systems, it would be desirable to be able to use the same mineral oils as used with CFC-12. It would not require any substantial change in equipment nor any significant changes in conditions used for the system. If lubricant separates from refrigerant during operation of the system, serious problems may result, i.e. the compressor could be inadequately lubricated. This would be most serious in automotive air-conditioning systems because the compressors are not separately lubricated and a mixture of refrigerant and lubricant circulates throughout the entire system. Unfortunately, however, the mineral oils are substantially immiscible with the tetrafluoroethanes. 
     Two recent publications of ASHRAE discuss the problems associated with separation of lubricants and refrigerants. These are &#34;Fundamentals of Lubrication in Refrigerating Systems and Heat Pumps&#34; Kruse and Schroeder ASHRAE Transactions Vol. 90 Part 2B, pps 763-782, 1984 and &#34;Evaluation of Lubricants for Refrigeration and Air-Conditioning Compressors&#34; Spauschus ibid pps. 784-798. 
     In summary, refrigerants which are not completely miscible with an oil in the full range of mixture compositions and operating temperatures may become miscible or immiscible as the temperature is raised or lowered from room temperature. The areas of immiscibility may assume a variety of shapes, i.e. parabolic or non-parabolic. As a parabola, the curve of miscibility temperature vs. percent oil in the mixture, may have its open or concave portion facing the low or high temperatures. The closed or convex portion of the parabolic curve identifies, respectively, the maximum or minimum temperature above or below which the refrigerant and the lubricating oil are completely miscible. These temperatures are referred to as the maximum or minimum &#34;consolute temperatures.&#34; Besides parabolas, these curves can assume skewed parabolic shapes or curves of varying slope wherein immiscibility occurs above or below the curve. 
     One of the objects of this invention is to provide a combination of lubricating oil and tetrafluoroethane, e.g. HFC-134a, where the area of miscibility encompasses the full ranges of temperature and composition encountered in compression refrigeration, i.e. completely miscibility occurs for all compositions in the range of -45° C. to at least 20° C. Another object is to provide a process for using such compositions in compression refrigeration. Another object is to provide antiwear additive packages for refrigerant lubricants. 
     PRIOR ART 
     U.S. Pat. No. 4,248,726, issued Feb. 5, 1981, and U.S. Pat. No. 4,267,064, issued May 12, 1981, both to Nippon Oil Co. et al., relate to the use of a polyglycol oil such as polyoxypropylene glycol (or an alkyl ether thereof) having a viscosity index of at least 150 and a glycidyl ether type epoxy compound as a high viscosity refrigeration oil composition for halogen-containing refrigerants. These polyglycol/glycidyl ether compositions are disclosed for use with Freon® 11, 12, 13, 22, 113, 114, 500 and 502; and as being &#34;particularly effective&#34; with Freon® 12 or 22. 
     Research Disclosure 17486 entitled &#34;Refrigeration Oil&#34; by E. I. duPont de Nemours &amp; Co. discloses polyalkylene glycols such as &#34;Ucon&#34; LB-165 and &#34;Ucon&#34; LB-525 sold by Union Carbide Corporation, for use with HFC-134a. These glycols are polyoxypropylene glycols that are mono-functional and are prepared from propylene oxide initiated with n-butanol. The publication states that these combinations of oil and refrigerant are miscible in all proportions at temperatures at least as low as -50° C. and are thermally stable in the presence of steel, copper and aluminum at 175° C. for about six days. 
     U.S. Pat. No. 4,755,316, issued July 5, 1988, to Allied-Signal Inc. also relates to the use of polyalkylene glycols. However, these glycols are at least difunctional with respect to hydroxyl groups and contains at least 80% propylene oxide units relative to the total, the remaining 20% may derive from ethylene or butylene oxide or esters, olefins and the like which are polymerizable with propylene oxide. It should be noted that only 100% oxypropylene units in the difunctional PAG&#39;s are exemplified in this patent. 
     SUMMARY OF THE INVENTION 
     The present invention is based on the discovery that the use of a sufficient amount to lubricate, usually 10-20% by volume for automotive use, but some situations as high as 50% by volume, of at least one mono-functional random polyalkylene glycol (PAG), also referred to as polyoxyalkylene glycol, based on a significant amount of ethylene oxide and propylene oxide, preferably from 25%-75% ethylene oxide and, correspondingly, 75%-25% propylene oxide, will be completely miscible with tetrafluoroethane and pentafluoroethane, usually 80-90%, sometimes as much as 50-90% by volume of the tetrafluoroethanes, e.g., HFC-134 and HFC-134a, or pentafluoroethane, HFC-125, or blends thereof with each other and with other refrigerants in the range of temperatures from -40° C. to at least 20° C. The more preferred weight percents of oxypropylene units and oxyethylene units in the random PAG are from 40-60% to 60-40%, respectively; and the most preferred ratio is about 50:50. The weight ratio of refrigerant to the PAG lubricant in the mixtures used for refrigeration may be anywhere from 99/1 to 1/99, preferably 99/1 to 70/30. The viscosities of these oils may be anywhere from 100 to 1200 SUS and for most commercial uses, from 400 to 1000 SUS. The present invention is also based on the discovery that certain materials provide antiwear properties to be lubricants with the above-identified halohydrocarbons, such materials also being known as &#34;extreme pressure additives&#34;. 
     The process of manufacturing these mono-functional PAGs may involve initiation with methanol, ethanol, propanol or butanol. The last mentioned, butanol, is the preferred initiator; and the process of manufacture is described in the Encyclopedia of Polymer Science and Engineering, Volume 6, pps, 226-273; &#34;Ethylene Oxide Polymers and Copolymers&#34; by Clinton and Matlock, 2nd edition, 1986, John Wiley &amp; Sons. 
     It has also been found that the use of 0.1-1.3% of an &#34;extreme pressure (EP) additive&#34; improves the lubricity and load-bearing characteristics of the oil and thus improves the quality of the refrigerant-lubricant compositions of this invention. EP additives for use in the invention are included among these disclosed in Table D of U.S. Pat. No. 4,755,316. The preferred ones are the organic phosphates and include Lubrizol® 1097, a zinc (dialkyl dithio) phosphate manufactured by the Lubrizol Corporation; and SYN-O-AD® 8478, a 70%/30% blend of tri (2,4,6-tri-t-butyl phenyl) phosphate/triphenyl phosphate manufactured by the Stauffer Chemical Company. 
     The EP additives comprising the claimed subject matter of this invention are mixtures comprised of various components. These mixtures are comprised of (A) tolyltriazole or substituted derivatives thereof, (B) an amine and (C) a third component which is (i) an ethoxylated phosphate ester (Antara LP-700 type), or (ii) a phosphate alcohol (ZELEC 3337 type), or (iiii) a zinc dialkyldithiophosphate (Lubrizol 5139, 5604, 5178, 5186 type), or (iv) a mercaptobenzothiazole, or (v) a 2,5-dimercapto-1,3,4-triadiazole derivative (Curvan 826) or a mixture thereof. 
     The preferred amines (B) are the propoxylated amines such as Jeffamine® M-600 of Texaco, Inc., having the structure ##STR1## The preferred ethoxylated phosphate esters are the water soluble compositions having a phosphorus content of from about 4 to 10 percent, preferably 5 to 7 percent, such as Antara® LP-700 of GAF (polyoxyethylene phenyl ether phosphate). Optionally the EP additive package can contain other components which will not have a deleterious effect on the antiwear properties of the lubricant composition. 
     The EP additives mixture preferably contains about 2 parts by weight of component (C) and about 3 parts by weight of component (B) per one part by weight of component (A). One can, if desired, modify these values; however, any modification should be made with the recommendation that after addition of the EP additives mixture to the PAG the resulting lubricant mixture should contain from about 0.1% to about 2% by weight of component (C) and that for every part of component (C) in the EP additives mixture there should be present from 0.5 parts to 2 parts of component (B); further, the lubricant mixture should preferably have from 0.01 to 0.1 weight percent of the tolyltriazole therein. 
     The EP additives mixtures of this invention can be added to known polyalkyleneoxy lubricant composition to improve its lubricity and antiwear properties. The polyalkleneoxys can be monohydroxylic, polyhydroxylic (e.g., 2 to about 10 or more hydroxyl groups, preferably 2 to 4 hydroxyl groups) or capped, and they can be random or block in structure, all of these structures are well known to those skilled in the art and need no further discussion herein. 
     EP additives may also be used in conjunction with some of the oxidation and thermal stability improvers and/or corrosion inhibitors also disclosed in Table D of U.S. Pat. No. 4,755,316. Such a preferred blend of additives is MLX-788, a proprietary mixture of Union Carbide Corporation containing a phosphate and two amine-containing compounds. 
    
    
     DESCRIPTION OF PREFERRED EMBODIMENTS 
     As stated previously, the tetrafluoroethanes, e.g. HFC-134a, and HFC-134 and pentafluoroethane, HFC-125, particularly HFC-134a, have physical characteristics which allow substitution for CFC-12 with only a minimum of equipment changes in compression refrigeration. They could be blended with each other, as well as with other refrigerants including CFC-12(CCl 2  F 2 , HCFC-22 (CHClF 2 ), HFC-152A(CH 3  CHF 2 ), HCFC-124(CHClFCF 3 ), HCFC-124a(CHF 2  CClF 2 ), HCFC-142b(CH 3  CClF 2 ), HFC-32(CH 2  F 2 ), HFC-143a(CH 3  CF 3 ), HFC-143(CHF 2  CH 2  F), HFC-125(CF 3  CHF 2 ) and FC-218(CF 3  CF 2  CF 3 ); and for purposes of the present invention such blends are not excluded. However, only those blends which are miscible with the lubricants of this invention in the range of -40° C. to at least +20° C. are included. 
     HFC-134a, the preferred tetrafluoroethane refrigerant, may be prepared by any of the methods disclosed in the prior art; e.g., U.S. Pat. No. 2,745,886; 2,887,427; 4,129,603; 4,158,675; 4,311,863; 4,792,643, and British 1,578,933 and 2,030,981, which are incorporated herein by reference. 
     The most preferred mono-hydroxyl polyalkylene glycol for use in this invention is based on the random polymerization of a 50/50 weight percent mixture of ethylene oxide and propylene oxide initiated with n-butanol. Although the amount of ethylene oxide can preferably range from 25 to 75 weight % of the ethylene oxide/propylene oxide composition and the viscosity can range from about 100 to 1200 SUS viscosity of 100° F., preferably 400 to 1200 SUS, the most preferred PAG&#39;s are the &#34;50HB400&#34; to &#34;50HB660&#34; (&#34;400&#34; and &#34;660&#34; representing the SUS viscosity at 100° F.; &#34;H&#34; representing &#34;hydrophyllic&#34;; &#34;B&#34; representing the butanol initiator; and &#34;50&#34; indicated the presence of 50  weight % ethylene oxide units) that are manufactured by the Union Carbide Corporation. The process of their manufacture is described in the 1986 edition of the Encyclopedia of Polymer Science and Engineering. 
     Although the preferred 50HB500 oil is not completely miscible with HFC-134a at condenser temperatures above 50° C., it meets the miscibility requirements to 50° C. and all the other requirements for automotive air conditioning. Its viscosity index, pour point, stability, lubricity, and miscibility with HFC-134a down to -50° C. are quite satisfactory. Furthermore, the use of an extreme pressure oil additive such as those mentioned previously improves the bearing-wear and load-carrying capability significantly 
     Specifically, the lubricants used in the compositions of this invention, and in the invented method for providing of lubrication in compression refrigeration and air-conditioning equipment have the following characteristics; 
     Viscosity at 100° F. 
     100 to 1200 SUS, preferably 400 to 1200 SUS, most preferably about 500 SUS for automotive air-conditioning; 
     Viscosity Index 
     &gt;90, preferably 150 to 250 or higher; 
     Pour Point 
     &lt;-20° C. preferably -20° C. to about -50° C. and -33° C. for the 100 SUS and 1200 SUS oils, respectively; 
     Solubility of Miscibility Range 
     100% from at least 20° C. to less than -10° C. for 1-99 weight percent of HFC-134a in mixture with the lubricant; 
     Four-ball wear test with a specific set of steel balls and saturated with HFC 134a; scar wear and coefficient of friction equal to or less than that for the oils currently used with CFC-12 in automotive air-conditioning, i.e., 0.37 mm scar wear and 0.07 friction coefficient when saturated with CFC-12 at atmospheric pressure; 
     &#34;Falex&#34; load-failure test with a specific type of steel for the V-block and pin; the fail load equal to or greater than that for the CFC/refrigerant oil combinations, i.e. 1300 lbs when saturated with CFC-12 at atmospheric pressure. 
     1. Solubility of Refrigerant in Lubricants 
     Six ml. blends of refrigerant and lubricant were used for the solubility studies. Generally, the mixtures contained 30, 60 and 90 wt.% refrigerant. In some instances, more compositions were made to better define the miscible/immiscible region. These air-free mixtures were contained in sealed Pyrex® tubes (7/16&#34; I.D. ×5.5&#34;, ca. 12.5 cc capacity). The refrigerant/lubricant solubilities were determined by completely immersing the tube in a bath at each test temperature for a minimum of 15 minutes and providing agitation to facilitate mixing and equilibration. The accuracy of determining the temperatures where the refrigerant/lubricant blend became either miscible or immiscible was about ±2° C. The refrigerant/lubricant blends were called immiscible when the blend acquired and retained &#34;schlieren&#34; lines; became hazy or cloudy; formed floc; or formed two liquid layers. 
     2. Stability of Refrigerant and Lubricant 
     Three ml. of refrigerant and 0.3 ml. of lubricant plus three metal coupons (steel 1010/copper/aluminum 1100-23/8&#34;×1/4&#34;×1/16&#34;, 120-grit surface finish) were charged and sealed in a Pyrex® tube (7/16&#34; I.D. ×5.5&#34;, ca. 12.5 cc volume) under anaerobic conditions. The specimens were tied together at the top end with copper wire, with copper-wire rings between the metals to separate the metals at the top end. The tubes were stored vertically at 268° C. for 11.8 days. Afterwards, the tube contents were examined for appearance changes. The refrigerants were then transferred to gas-sampling bulbs for analysis by gas chromatography for the decomposition product of HFC-134a) or for HCFC-22 (CFC-12 decomposition product). These results were then converted to their equivalents in terms of HF and HCl generated. 
     3. Lubricity 
     a. Four-ball Wear Test 
     The procedure is described fully in ASTM D4172. The method was modified as follows: A load of 20 Kg at 1200 RPM was put on the steel 52100 balls immersed in 10 ml. of lubricant. The refrigerant, HFC-134a or CFC-12, was bubbled through a Teflon® capillary tube into the lubricant at the rate of 0.75 standard cu. ft./hr. to provide one atmosphere of pressure of refrigerant gas over the lubricant and a gas-saturated lubricant. 
     b. Falex Pin/V-Block Load-to-Failure Test: The procedure is described fully in ASTM D3233. The V-Block was made of AISI C-1137 steel (HRC-20 to 24 hardness, 5 to 10 microinches surface finish). The test pin was made of AISI 3135 steel (HRB-87 to 91 hardness, 5 to 10 microinches surface finish). These tests were also run with refrigerant gas bubbling through the oil as in the four-ball wear test. 
     4. Viscosity and Viscosity Index 
     a. Viscosity is a property that defines a fluid&#39;s resistance to shearing force. It is expressed in terms of absolute viscosity, kinematic viscosity or Saybolt Seconds Universal viscosity (SSU), depending on the method by which it is determined. Conversion from SSU to mm 2  /s (centistokes) can be readily made from tables contained in ASTM D-445, but it is necessary to known the density to convert kinematic viscosity to absolute viscosity. Refrigeration oils are sold in viscosity grades, and ASTM has proposed a system of standardized viscosity grades for industry-wide usage (D-2422). 
     b. Viscosity Index is a measure of the amount of change experienced by an oil with temperature. Viscosity decreases as the temperature increases and increases as the temperature decreases. The relationship between temperature and kinematic viscosity is represented by: 
     
         log log (v+0.7)=A+B log T 
    
     where 
     v=kinematic viscosity, mm 2  /s (CST) 
     T=thermodynamic temperature (kelvin) 
     A,B=constants for each oil 
     This relationship is the basis for the viscosity temperature charts published by ASTM and permits a straight line plot of viscosity over a wide temperature range. This plot is applicable over the temperature range in which the oils are homogeneous liquids. 
     The slope of the viscosity-temperature lines is different for different oils. The viscosity-temperature relationship of an oil is described by an empirical number called the Viscosity Index (VI) (ASTM D-2270). An oil with a high viscosity index (HVI) shows less change in viscosity over a given temperature range than an oil with a low viscosity index (LVI). 
     5. Pour Point 
     Any oil intended for low temperature service should be able to flow at the lowest temperature likely to be encountered. The procedure for determining pour point is described in ASTM D-97. 
     The invention will be more clearly understood by referring to the following experiments which are presented in Tables I-XI. 
     1. Solubility Data 
     Tables I and II summarize the solubility data for the mono-functional random polyalkylene glycol-tetrafluoroethane refrigerant compositions of this invention. The PAG&#39;s contained 25-75% ethylene oxide units and, correspondingly 75-25% ethylene oxide units and their preparation involved butanol and methanol initiators. 
     The solubility data indicate that the PAG&#39;s used in the invention provided superior results when compared at equivalent viscosities, to: 
     (1) mono-functional PAG&#39;s containing 100% propylene oxide units as shown in Table III. 
     (2) PAG&#39;s with less than one --OH group as shown in Table IV. 
     (3) the PAG with two --OH groups as shown in Table V. 
     (4) PAG&#39;s with three --OH groups, three of which were initiated with glycerine (G) as shown in Table VI. 
     In Table VII, data showing the immiscibility of HFC-134a with those oils typically used with CFC-12 in automotive air-conditioning, e.g. paraffinic (BVM-100N) and naphthenic (Suniso 5GS), as well as other alternative oils, are presented. 
     2. Stability Data 
     The stability of compositions of HFC-134a with the PAG&#39;s used in this invention are significantly better than that of the compositions of CFC-12 with the oils currently used in automotive air-conditioning as shown in Table VIII. The tests in Table VIII approximate the result obtained after operating an automobile for ten (10) years. 
     3. Additives for the PAG&#39;s used in this invention 
     It is known in the state of the art that additives may be used in lubricants to enhance their performance. These additives may include any one or combination of the following to meet the specific functional requirements for the types of compressor employed; extreme pressure additive, anti-wear additive, antioxidant, high-temperature stabilizer, corrosion inhibitor, detergent and anti-foaming agent. Although all of these additives are not used in these experiments, they are not meant to be excluded as additives for the PAG&#39;s especially if they are not significantly detrimental to the solubility of the HFC-134a in the PAG&#39;s. 
     EP additives alone and in combination with other additives, which are soluble in the 50HB PAG&#39;s are shown in Table IX. The superiority of the lubricity of the 50HB500/HFC-134a with and without the additive package over the naphthenic and paraffinic oils currently used in automotive air-conditioning is shown in the four-ball wear tests (Table X). A more visible advantage that the additive package gives to the PAG lubricant is shown in the load-to-failure tests (Table XI). 
     As a supplement to the above additives, blends of the low and high viscosity 50HB PAG&#39;s may also be used to enhance the lubricating quality for the oil under a variety of compressor requirements. Blends of the 50HG PAG&#39;s may also be made with other PAG&#39;s (0, 1,2,3,etc. functional groups) to meet special lubrication needs. 
     The tables, referred to in the foregoing paragraphs, are presented hereinafter. 
     
                       TABLE I                                                     
______________________________________                                    
SOLUBILITY OF REFRIGERANT (HFC-134a)                                      
WITH LUBRICANT                                                            
(PAG containing one functional - OH group)                                
(Test Range: 93 to -50° c.)                                        
                   Miscible Range (°C.) for Indicated              
                   Concentrations of HFC-134a                             
Expt.              in Oil (Wt. %))                                        
No.   Lubricant    30%       60%     90%                                  
______________________________________                                    
1     50HM350      93 to -50 60 to -50                                    
                                     51 to -50                            
2     75HB350      93 to -10 69 to -50                                    
                                     44 to -50                            
3     50HB260      93 to -50 93 to -50                                    
                                     56 to -50                            
4     50HB400      93 to -49 69 to -50                                    
                                     43 to -50                            
5     50HB660      50 to -50 40 to -50                                    
                                     30 to -50                            
6     25HB530      93 to -5  58 to -50                                    
                                     37 to -50                            
7     50HB500 blend                                                       
                   93 to -50 67 to -50                                    
                                     39 to -50                            
      (30/70 v/v                                                          
      50HB260/                                                            
      50HB660                                                             
8.    510SUS blend 93 to -50 52 to -50                                    
                                     31 to -50                            
      (50/50 v/v                                                          
      50HB500/                                                            
      LB525**)                                                            
______________________________________                                    
 *Key for determining lubricant:                                          
 50HM350: &#34;50&#34; = 50/50 wt. %                                              
 polyoxyethylene/polyoxypropylene; &#34;H&#34; = hydrophillic                     
 &#34;M&#34; = methanol  initiated polymer; &#34;350&#34; = 350SUS viscosity at 100.degree
 F.;                                                                      
 75HB350: &#34;75&#34; = 75 wt. % polyoxymethylene; B = butanol  initiated polymer
 etc.                                                                     
 **No first number = 0/% polyoxyethylene; &#34;L&#34; = lipophyllic               
 
    
     
                       TABLE II                                                    
______________________________________                                    
Solubility of HFC-134a with 50HB500*                                      
(Test range: 93 to -50° C.)                                        
            Wt. % HFC in  Miscible Range                                  
Expt. No.   HFC/Lubricant Mix                                             
                          (°C.)                                    
______________________________________                                    
9           30            93 to -50                                       
10          40            93 to -50                                       
11          60            55 to -50                                       
12          90            42 to -50                                       
13          94            45 to -50                                       
14          98            50 to -50                                       
15          99            60 to -50                                       
______________________________________                                    
 *50HB500: &#34;50&#34; = 50/50 wt. % polyoxyethylene/polyoxypropylene            
 &#34;H&#34; = hydrophillic                                                       
 &#34;B&#34; = butanol  initiated polymer                                         
 &#34;500&#34; = 500 SUS viscosity at 100° F.                              
 
    
     
                       TABLE III                                                   
______________________________________                                    
Solubility of HFC-134a with Mono-Functional PAG&#39;s                         
Containing No Ethylene Oxide Unit                                         
(Test Range: 93 to -50° C.)                                        
                   Wt. % HFC                                              
                   in HFC/Oil                                             
Expt. No.                                                                 
         Lubricant Mix        Miscible Range (°C.)                 
______________________________________                                    
Control A                                                                 
         LB-165**  30,60      93 to -50                                   
                   70         80 to -50                                   
                   73,90      73 to -50                                   
                   94         68 to -50                                   
Control B                                                                 
         LB-285**  68         70 to -50                                   
                   80         40 to -50                                   
                   94         53 to -50                                   
                   97         58 to -50                                   
                   99         58 to -50                                   
Control C                                                                 
         LB-525**  30         40 to -50                                   
                   60         36 to -40                                   
                   90         -7 to -23                                   
______________________________________                                    
 *Key for determining lubricant                                           
 L = lipophyllic                                                          
 B = butanol  initiated polymer                                           
 no first number = 0% ethylene oxide unit or 100% propylene oxide units   
 165, 285 and 525 = SUS viscosity at 100° F.                       
 **Manufactured by Union Carbide Corporation                              
 
    
     
                       TABLE IV                                                    
______________________________________                                    
Solubility of HFC-134a with PAG&#39;s                                         
Containing Less than One Functional OH Group                              
(Test Range: 93 to -50° C.)                                        
                   Miscible Range (°C.) for Shown                  
Expt.              Concs. of HFC in Oil (Wt. %)                           
No.    Oil         30%       60%     90%                                  
______________________________________                                    
Control                                                                   
       50HG300 (+3 93 to -10 93 to -10                                    
                                     67 to -50                            
       acetoxy caps)*                                                     
Control                                                                   
       50H400 (+2  93 to -10 93 to -10                                    
                                     53 to -50                            
E                                                                         
       acetoxy caps)**                                                    
Control                                                                   
       50HB400 (+1 93 to -10 25 to -50                                    
                                     25 to -50                            
F                                                                         
       acetoxy cap)***                                                    
Control                                                                   
       50HB500 (+0.5                                                      
                   Insoluble Insoluble                                    
                                     Insoluble                            
G                                                                         
       butyl cap)***                                                      
Control                                                                   
       50HB500     93 to 45  93 to 45                                     
                                     Insoluble                            
H      (+0.91                                                             
       methyl cap)***                                                     
Control                                                                   
       50HB500     93 to 50  93 to 75                                     
                                     Insoluble                            
I      (+0.95                                                             
       methyl cap)***                                                     
______________________________________                                    
 *50HG300 (+3 acetoxy caps) key: 50 = 50/50 wt. %                         
 polyoxyethylene/polypropylene                                            
 H = hydrophyllic                                                         
 G = PAG Initiated with glycerol                                          
  300 = 300 SUS viscosity at 100° F.                               
 3 acetoxy caps = the 3 OH groups were capped with the acetoxy group from 
 acetic anhydride                                                         
 **Polymer initiated with diethylene glycol                               
 ***Polymer initiated with butanol                                        
 
    
     
                       TABLE V                                                     
______________________________________                                    
Solubility of HFC-134a with Polyoxypropylene Diols                        
(Test Range: 93 to -50° C.)                                        
                   Viscosity                                              
                   at 100° F.                                      
                            Wt. %   Miscible                              
Expt. No.                                                                 
        Oil        (SUS)    HFC-134a                                      
                                    Range (°C.)                    
______________________________________                                    
Control J                                                                 
        Polyoxypro-                                                       
                   554      30      93 to -50                             
        pylene diol*        60      90 to -50                             
                            90      31 to -50                             
Control K                                                                 
        Polyoxypro-                                                       
                   154      30      93 to -5                              
        pylene diol**       60      45 to -38                             
                            90      93 to -50                             
______________________________________                                    
 *Manufactured by CPI Engineering Co.                                     
 **&#34;NIAX PPG425&#34; manufactured by Union Carbide Corp.                      
 
    
     
                                           TABLE VI                                
__________________________________________________________________________
Solubility of HFC-134a with PAG&#39;s Containing Three Functional OH Groups   
(Test Range: 93 to -50° C.)                                        
                         Viscosity at                                     
                                Wt. % Miscible                            
Expt. No.                                                                 
      Oil                100° F. SUS)                              
                                HFC-134a                                  
                                      Range (°C.)                  
__________________________________________________________________________
Control L                                                                 
      50HG400*           400    30    93 to 25                            
                                60    25 to 5                             
                                90    25 to -50                           
Control M                                                                 
      50HG450*           450    30    25 to -50                           
                                60    25 to -50                           
                                90    20 to -50                           
Control N                                                                 
      100HG550           550    30    24 to -40                           
                                60    Insoluble                           
                                90    Insoluble                           
Control O                                                                 
      CH.sub.3 C(CH.sub.2 OCH.sub.2 CH.sub.2 --OCH.sub.2 CH.sub.2         
      OH).sub.3          562    30    Insoluble                           
                                60    Insoluble                           
                                90    Insoluble                           
__________________________________________________________________________
 *G = Glycerolinitiated polymer                                           
 
    
     
                       TABLE VII                                                   
______________________________________                                    
Solubility of HFC 134a with Available Miscellaneous                       
Refrigerant Oils                                                          
(Test Range: 93 to -50° C.) unless noted otherwise)                
                  Miscible Range (°C.) for                         
                  Indicated Concentration                                 
                  (Wt %) of HFC-134a                                      
                  In Lubricant                                            
Expt. No.                                                                 
        Oil             30%     60%    90%                                
______________________________________                                    
        Dipentaerythritol                                                 
        Esters of Fatty Acids (c)                                         
Control P                                                                 
        240 SUS         -50+    -4+    40+                                
Control Q                                                                 
        290 SUS         -44+    -17+   70+                                
        PEG Esters of Fatty                                               
        Acids (d)                                                         
Control R                                                                 
        144 SUS         -21+    54 (a) 54 (a)                             
Control S                                                                 
        620 SUS         -4+     4+     70+                                
Control T                                                                 
        830 SUS         -6+     70+    70+                                
        Naphthenic Oils (e)                                               
Control U                                                                 
        Sunisco ® 5GS (500                                            
                        54 (a)  54 (a) 54 (a)                             
        SUS, 38% Aromatic)                                                
Control V                                                                 
        Witco 500 (500 SUS)                                               
                        54 (a)  54 (a) 54 (a)                             
Control W                                                                 
        Expt. Oil (520 SUS,                                               
                        54 (a)  54 (a) 54 (a)                             
        47% aromatic)                                                     
Control X                                                                 
        Exp. Oil (529 SUS,                                                
                        54 (a)  54 (a) 54 (a)                             
        75% aromatic)                                                     
        Paraffin Oil (f)                                                  
Control Y                                                                 
        BVM-1-N (500 SUS)                                                 
                        54 (a)  54 (a) 54 (a)                             
        Alkyl Benzene                                                     
Control Z                                                                 
        Zerol 300       54 (a)  54 (a) 54 (a)                             
        (300 SUS) (g)                                                     
Control A&#39;                                                                
        DN600 (125 SUS) (b)                                               
                        54 (a)  54 (a) 54 (a)                             
Control B&#39;                                                                
        Atmos HAB15F    55+     Ins (b)                                   
                                       Ins (b)                            
        (78 SUS) (i)                                                      
        Silicone Oils                                                     
Controls                                                                  
        L-45 Oils (163, Ins (b) Ins (b)                                   
                                       Ins (b)                            
C&#39;, D&#39;, E&#39;                                                                
        231, &amp; 462 SUS (j)                                                
______________________________________                                    
 + Soluble at and above shown temperature.                                
 (a)  May be soluble above shown temperature.                             
 (b)  Completely insoluble from 93 to -50° C.                      
 (c)  Hercules                                                            
 (d)  CPI Engineering                                                     
 (e)  Witco Chemical Co.                                                  
 (f)  BVM Associates                                                      
 (g)  Shrieve Chemical Co.                                                
 (h)  Conoco                                                              
 (i)  Nippon Oil KK                                                       
 (j)  Union Carbide                                                       
 
    
     
                                           TABLE VIII                              
__________________________________________________________________________
Stability of HFC-134a in Contact With Lubricant Plus Coupled              
Steel - 1010/Copper/Aluminum - 1100 at 268° F. for 11.8 days       
                    Cl.sup.- Visual-Effect*                               
                                    Rating                                
Expt. No.                                                                 
      Refrigerant                                                         
            Lubricant                                                     
                    Generated (ppm)                                       
                             Liquid                                       
                                 Steel                                    
                                    Cu                                    
                                      Al                                  
__________________________________________________________________________
16    HFC-134a                                                            
            50HB500 &lt;0.2*    0   0  0 0                                   
17    HFC-134a                                                            
            50HB260 &lt;0.2*    0   0  0 0                                   
Control F&#39;                                                                
      CFC-12                                                              
            Naphthenic Oil                                                
                    423      4   3  2 2                                   
Control G&#39;                                                                
      CFC-12                                                              
            Paraffinic Oil                                                
                    --       0   3  0 0                                   
Control H&#39;                                                                
      CFC-12                                                              
            Witco 500                                                     
                    32       0   1  0 0                                   
__________________________________________________________________________
*No HFC-135a decomposed.                                                  
a - Key to ratings                                                        
Rating                                                                    
    Visual Changes                                                        
0   None                                                                  
1   Slight, acceptable change                                             
    Steel - Tarnished                                                     
2   Borderline change                                                     
    Cu - dark tarnish plus moderate corrosion - 25% of surface            
    Al - etched                                                           
3   Slight unacceptable change                                            
    Steel - brown deposit/gray film - 100% of surface                     
4   Moderate, unacceptable change                                         
    Liquid - clear brown plus black precipitate                           
 
    
     
                       TABLE IX                                                    
______________________________________                                    
Solubility of HFC-134a with PAG Lubricant and Containing                  
Extreme Pressure (EP) Additives                                           
(Test Range: 93 to -50° C.)                                        
Expt. Lubri-   Addi-                                                      
No.   cant     tive*   30%     60%     90%                                
______________________________________                                    
18    50HB500  0       93 to -50                                          
                               55 to -50                                  
                                       42 to -50                          
19    50HB500  1       93 to -50                                          
                               65 to -50                                  
                                       40 to -50                          
20    50HB500  2       93 to -50                                          
                               65 to -50                                  
                                       38 to -50                          
21    50HB500  3       93 to -10                                          
                               65 to -50                                  
                                       38 to -50                          
22    50HB260  0       93 to -10                                          
                               63 to -50                                  
                                       56 to -50                          
23    50HB260  1       93 to -50                                          
                               93 to -50                                  
                                       48 to -50                          
24    50HB260  2       93 to -50                                          
                               93 to -50                                  
                                       48 to -50                          
25    50HB260  3       93 to -20                                          
                               73 to -50                                  
                                       50 to -50                          
______________________________________                                    
 *EP Additive Key:                                                        
 0 = none;                                                                
 1 = 0.6 wt. % &#34;MLX788&#34; a threecomponent additive from Union Carbide;     
 2 = 1.3 wt. % &#34;SYNO-AD 8478&#34;, butylated triphenyl                        
 phosphate/triphenylphosphate from Stouffer Chemical;                     
 3 = 0.1 wt # &#34;Lubrizol 1097,&#34; zinc dialkyl dithiophosphate from Lubrizoil
 Corporation                                                              
 
    
     
                                           TABLE X                                 
__________________________________________________________________________
Lubricity of Lubricants Under One Atmosphere of Refrigerant               
Gas Pressure in a Four-Ball Wear Test                                     
                           Ball Scar Wear*                                
                                    Coefficient*                          
Expt. No.                                                                 
      Refrigerant                                                         
            Lubricant      (mm) (a) of Friction (b)                       
__________________________________________________________________________
26    HFC-134a                                                            
            50HB500        0.303    0.023                                 
27    HFC-134a                                                            
            50HB500        0.357    0.030                                 
            Plus EP additive (&#34;MLX-788&#34;)                                  
Control I&#39;                                                                
      CFC-12                                                              
            Naphthenic Oil 0.373    0.072                                 
Control J&#39;                                                                
      CFC-12                                                              
            Paraffinic Oil 0.368    0.071                                 
__________________________________________________________________________
 (a) ± 0.028 std. deviation                                            
 (b) ± 0.006 std. deviation                                            
 *the smaller the number, the better                                      
 
    
     
                                           TABLE XI                                
__________________________________________________________________________
Load-Carrying Ability of Lubricants Under One Atmosphere of Refrigerant   
Gas Pressue in Falex Pin/V-Block Test                                     
                             Fail Load*                                   
                                   Torque in Fail*                        
Expt. No.                                                                 
      Refrigerant Gas                                                     
              Lubricant      (lbs) (in-lbs.)                              
__________________________________________________________________________
28    HFC-134a                                                            
              50HB500        1750  28                                     
29    HFC-134a                                                            
              50HB500        4150  46                                     
              plus EP additive (&#34;MLX-788&#34;)                                
Control K&#39;                                                                
      CFC-12  Naphthenic Oil 1250  24                                     
Control L&#39;                                                                
      CFC-12  Paraffinic Oil 1300  26                                     
__________________________________________________________________________
 *The larger the number, the better.                                      
 
    
     The additive packages were usually prepared having a ratio of components C: B: A of 2:3:1 and these were added to the PAG lubricant and evaluated by the test procedures previously described. In some cases the antiwear additives were tested without the presence of component A. In some instances comparisons were made with unmodified PAG (50-HB-600 or PPG-1025). The test procedure used was the Falex Pin/V-Block Wearer Test using either a Phosphorus/Bronze V-block or a #8 Steel V-Block. 
     In Table XII a variety of different additives, 1 through 14, was evaluated in an HFC-134a atmosphere in the Test Formulation shown at the top of the Table and compared to control compositions A and B. Control A was the polyalkylene glycol 50-HB-660 and Control B was a mixture of 
     
         ______________________________________                                    
50-HB-660        99.4%                                                    
Antara LP-700    0.2                                                      
Jeffamine M-600  0.3                                                      
Tolyltriazole    0.1                                                      
______________________________________                                    
 
    
     As shown in the table the additives, 1, 2, 4, 9 and 13, which fall within the scope of this invention, when added to a concentration of 0.2% show higher failure loads and therefore superior lubricating properties compared to Control A or the other materials tested. Note also that Control B is significantly better than either Control A or additive 1; this demonstrates one of the benefits contributed by the presence of tolyltriazone (or similar compounds) in the compositions. 
     Table XIII shows the effect of increased lubricity additive content of the lubricating performance of the Test Formulation. Comparison of this data with that presented in Table XII shows a significantly greater improvement for the MBT or LP-700 for the isostearic acid or the Dover DO-40. 
     Table XIV shows the effect of the additive compositions of this invention on the lubricity a different polyoxyalkylene base composition, polypropylene glycol PPG 1025. The data shows the addition of the additives of this invention to any base composition results in improved lubricity performance of such base. 
     Table XV shows the effect of the additive compositions of this invention in improving lubricity and antiwear properties. The materials were compared to unformulated PAG (50-HB-660) and to PAG formulated with a different phosphate compound (Syn-O-Ad®). As seen from the data the compositions of this invention impart higher &#34;failure loads&#34;, which correlates with superior antiwear of extreme pressure (EP) lubrication properties. The word &#34;none&#34; in the tables indicates failure loads greater than 5000 pounds. No difference was observed between the one and five minute purges, so one minute purges were used. The relative ranking of the test compositions was similar regardless of the atmosphere in which the test was performed (air, CFC-12, HFC-134a). For reason all subsequent tests were performed in an air environment. 
     Table XVI shows the comparison of a different composition of this invention in air to unformulated PAG and to a PAG formulated with the Syn-O-Ad phosphate compound. Again superior antiwear properties were achieved with the phosphate alcohol Zelec 3337 as compared to PAG alone or the PAG plus Syn-O-Ad phosphate compound-containing composition. 
     Table XVII shows the effect of the additive composition of this invention in air on the weight loss, of the bronze blocks and compares it to the weight loss effect of PAG alone (50-HB-660). The data clearly show a significantly lower weight loss in the two tests (a and b) performed, indicative of superior lubricating properties achieved through the use of the additive compositions of this invention in conjunction with a PAG. 
     Table XVIII shows the effect of an additive composition of this invention containing a phosphate alcohol (Zelec 3337) in air on the weight loss of the bronze block. Superior results are again shown versus the controls 50-HB-660 alone and the 50-HB-660 composition containing the Syn-O-Ad. 
     Table XIX shows the effect of the LP700 additive of this invention on the lubricity of a capped polyalkyleneoxy lubricant composition. 
     
                       TABLE XII                                                   
______________________________________                                    
FALEX PIN &amp; V - BLOCK WEAR TEST                                           
______________________________________                                    
Steel pins and bLocks run in an HFC-134a atmosphere                       
______________________________________                                    
Test Formulation:                                                         
                50-HB-660    99.5%                                        
                Jeffamine M-600                                           
                             0.3%                                         
                Lubricity additive                                        
                             0.2%                                         
______________________________________                                    
 *Maximum failure load on the wear test 5000 lbs.                         
 
    
     
                Lubricant     Failure load, lbs                                    
______________________________________                                    
A)     Control       1500                                                 
B)     Control       2750                                                 
1)     LP-700        2000                                                 
2)     LUBRIZOL 5604 2000                                                 
3)     IRGALUBE TPPT 1500                                                 
4)     ZELEC 3337    2000                                                 
5)     Pelargonic Acid                                                    
                     1500                                                 
6)     Isostearic Acid                                                    
                     1500                                                 
7)     Capric Acid   1400                                                 
8)     EMPOL 1022    1800                                                 
9)     MBT           3500                                                 
10)    PAROIL 150LV  1450                                                 
11)    Dover DO-40   1500                                                 
12)    Dover DO-160-HV                                                    
                     1350                                                 
13)    CURVAN 826    4250                                                 
14)    EMERY 2958    1450                                                 
______________________________________                                    
 
    
     
                       TABLE XIII                                                  
______________________________________                                    
FALEX PIN &amp; V - BLOCK TESTS                                               
______________________________________                                    
Steel pins and blocks run in an HFC-134a atmosphere                       
______________________________________                                    
Test Formulation:                                                         
                50-HB-660     97.5%                                       
                Jeffamine M-600                                           
                              1.5%                                        
                Lubricity Additive                                        
                              1.0%                                        
______________________________________                                    
        Lubricant   Failure load, lbs                                     
______________________________________                                    
A)      Control     1500                                                  
B)      Control     2500                                                  
1)      LP-700      4850                                                  
6)      Isostearic Acid                                                   
                    2500                                                  
9)      MBT         4750                                                  
11)     Dover DO-40 1500                                                  
______________________________________                                    
 
    
     
                       TABLE XIV                                                   
______________________________________                                    
FALEX PIN &amp; V - BLOCK WEARS TESTS                                         
______________________________________                                    
Steel pins and blocks run in an HFC-134a atmosphere                       
______________________________________                                    
TEST FORMULATION:                                                         
                 PPG 1025      99.5%                                      
                 Jeffamine M-600                                          
                               0.3%                                       
                 Lubricity Additive                                       
                               0.2%                                       
______________________________________                                    
        Lubricant   Failure load, lbs                                     
______________________________________                                    
A)      Control     1500                                                  
B)      Control     2700                                                  
C)      Control*    1450                                                  
1)      LP-700      2000                                                  
6)      Isostearic Acid                                                   
                    1150                                                  
9)      MBT         2250                                                  
11)     Dover DO-40 1150                                                  
______________________________________                                    
 *C = PPG 1025, unformulated                                              
 
    
     
                       TABLE XV                                                    
______________________________________                                    
FALEX PIN &amp; V-BLOCK WEAR TEST                                             
Effect of different Atmospheres                                           
SAE 3135 Steel Pin                                                        
Falex ® #8 Steel V-Blocks                                             
Sample                    Purge    Failure                                
(or composition, wt %)                                                    
               Atmosphere*                                                
                          Time**   Load (lbs.)                            
______________________________________                                    
50-HB-660  100%    air        1 min  1500                                 
50-HB-660  99.4    air        1 min  2250                                 
Lubrizol #5604                                                            
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
50-HB-600  99.2    air        1 min  2000                                 
Antara LP-700                                                             
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
MBT        0.2                                                            
50-HB-660  99.4    air        1 min  1550                                 
Syn-O-Ad   0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
50-HB-660  99.4    air        1 min  2500                                 
Antara LP-700                                                             
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
50-HB-660  100%    CFC-12     1 min  1500                                 
50-HB-660  100%    CFC-12     5 min  1500                                 
50-HB-660  99.4    CFC-12     1 min  none                                 
Lubrizol #5604                                                            
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
MBT        0.2                                                            
50-HB-600  99.2    CFC-12     1 min  none                                 
Antara LP-700                                                             
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
50-HB-660  99.4    CFC-12     1 min  1550                                 
Syn-O-Ad   0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
50-HB-600  99.2    CFC-12     1 min  none                                 
Antara LP-700                                                             
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
MBT        0.2                                                            
50-HB-600  100%    CFC-12     1 min  1500                                 
50-HB-660  99.4    HFC-134a   1 min  2500                                 
Lubrizol #5604                                                            
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
50-HB-600  99.2    HFC-134a   1 min  4000                                 
Antara LP-700                                                             
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
MBT        0.2                                                            
50-HB-660  99.4    HFC-134a   1 min  1550                                 
Syn-O-Ad   0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
50-HB-660  99.4    HFC-134a   1 min  4000                                 
Antara LP-700                                                             
           0.2                                                            
Jeffamine M-600                                                           
           0.3                                                            
Tolyltriazole                                                             
           0.1                                                            
______________________________________                                    
 *Tests in specific atmospheres were run by bubbling the gas through the  
 lubricant at atmospheric pressure during the duration of the experiment. 
 **The gas was purged through the lubricant prior to running the test in  
 order to displace any dissolved oxygen.                                  
 
    
     
                       TABLE XVI                                                   
______________________________________                                    
FALEX PIN &amp; V-BLOCK WEAR TEST                                             
SAE 3135 Steel Pin                                                        
Falex ® #8 Steel V-Blocks                                             
(Sample (or composition, wt %)                                            
                    Failure Load (lbs.)                                   
______________________________________                                    
50-HB-660      100      2000                                              
50-HB-660      99.4     2500                                              
Antara LP-700  0.2                                                        
Jeffamine M-600                                                           
               0.3                                                        
Tolyltriazole  0.1                                                        
50-HB-660      99.4     3000, 2750                                        
DuPont Zelec 3337                                                         
               0.2                                                        
Jeffamine M-600                                                           
               0.3                                                        
Tolyltriazole  0.1                                                        
50-HB-660      99.4     1750                                              
Syn-O-Ad       0.2                                                        
Jeffamine M-600                                                           
               0.3                                                        
Tolyltriazole  0.1                                                        
______________________________________                                    
 *Test was run with no gas being bubbled through the lubricant.           
 
    
     
                       TABLE XVII                                                  
______________________________________                                    
FALEX PIN &amp; V-BLOCK WEAR TEST                                             
SAE 3135 Steel Pin                                                        
Falex ® Phosphorus/Bronze V-Blocks                                    
                  Weight Loss-grams                                       
Sample (or composition, wt %)                                             
                     a        b                                           
______________________________________                                    
50-HB-660    100%        0.0145   0.3730                                  
50-HB-660    99.4        0.0089   0.0451                                  
Antara LP-700                                                             
             0.2                                                          
Jeffamine M-600                                                           
             0.3                                                          
Tolyltriazole                                                             
             0.1                                                          
50-HB-660    99.4        0.0069   0.1551                                  
Lubrizol #5604                                                            
             0.2                                                          
Jeffamine M-600                                                           
             0.3                                                          
Tolyltriazole                                                             
             0.1                                                          
______________________________________                                    
 Test was run with no gas being bubbled through the lubricant.            
 
    
     
                       TABLE XVII                                                  
______________________________________                                    
FALEX PIN &amp; V-BLOCK WEAR TEST                                             
SAE 3135 Steel Pin                                                        
Falex ® Phosphorus/Bronze V-Blocks                                    
                  Weight Loss-grams                                       
Sample (or composition, wt %)                                             
                     a        b                                           
______________________________________                                    
50-HB-660    100%        0.0517   0.0046                                  
50-HB-660    99.4        0.0010   0.0011                                  
Antara LP-700                                                             
             0.2                                                          
Jeffamine M-600                                                           
             0.3                                                          
Tolyltriazole                                                             
             0.1                                                          
50-HB-660    99.4        0.0192   0.0018                                  
DuPont Zelec 3337                                                         
             0.2                                                          
Jeffamine M-600                                                           
             0.3                                                          
Tolyltriazole                                                             
             0.1                                                          
50-HB-660    99.4        0.0013   0.0014                                  
DuPont Zelec 3337                                                         
             0.2                                                          
Jeffamine M-600                                                           
             0.3                                                          
Tolyltriazole                                                             
             0.1                                                          
50-HB-660    99.4        0.0420   0.0024                                  
Syn-O-Ad     0.2                                                          
Jeffamine M-600                                                           
             0.3                                                          
Tolyltriazole                                                             
             0.1                                                          
______________________________________                                    
 Test was run with no gas being bubbled through the lubricant.            
 
    
     
                       TABLE XIX                                                   
______________________________________                                    
FALEX PIN &amp; V - BLOCK WEAR TESTS                                          
______________________________________                                    
Steel pins and blocks run in an HFC-134a atmosphere                       
______________________________________                                    
TEST FORMULATION:                                                         
                 50HB660 (capped)*                                        
                               99.4%                                      
                 Jeffamine M-600                                          
                               0.3%                                       
                 Lubricity Additive                                       
                               0.2%                                       
                 Tolyltriazole 0.1%                                       
______________________________________                                    
        Lubricant    Failure load, lbs                                    
______________________________________                                    
A)      Control      1500                                                 
B)      Control      2700                                                 
D)      Control**    1500                                                 
1)      LP-700       2250                                                 
6)      Isostearic Acid***                                                
                     1250                                                 
______________________________________                                    
 *Butyl capped                                                            
 **D = 50HB500 (capped), unformulated                                     
 ***Tolytriazole replaced with 50HB500 (capped)