A lubricant additive produced by the process comprising mixing a metal halide with an organophosphate, the metal halide participating as a reactant and reacting the metal halide and the organophosphate to produce a reaction mixture comprising the lubricant additive. Also disclosed is a lubricant pro
A lubricant additive produced by the process comprising mixing a metal halide with an organophosphate, the metal halide participating as a reactant and reacting the metal halide and the organophosphate to produce a reaction mixture comprising the lubricant additive. Also disclosed is a lubricant produced by the process comprising forming a lubricant additive by reacting metal halide and organophosphate together to form a reaction mixture, the metal halide participating as a reactant, and adding at least a portion of the reaction mixture to a lubricant base.
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1. The lubricant additive produced by the process comprising: mixing a metal fluoride with a pentavalent, mono- or di-thiophosphate, the metal fluoride participating as a reactant, wherein the metal fluoride is selected from the group consisting of: aluminum trifluoride, zirconium tetrafluoride, tit
1. The lubricant additive produced by the process comprising: mixing a metal fluoride with a pentavalent, mono- or di-thiophosphate, the metal fluoride participating as a reactant, wherein the metal fluoride is selected from the group consisting of: aluminum trifluoride, zirconium tetrafluoride, titanium trifluoride, titanium tetrafluoride, ferric fluoride, chromium difluoride, chromium trifluoride, nickel difluoride, stannous difluoride, stannous tetrafluoride, and combinations thereof; andreacting the metal fluoride and the pentavalent, mono- or di-thiophosphate to produce a reaction mixture comprising the lubricant additive, wherein said reacting comprises heating to a temperature from about 60° C. to about 125° C., the reaction producing, in the lubricant additive, at least one compound that comprises at least one phosphorus-fluorine bond. 2. The lubricant additive of claim 1 produced by the process further comprising: separating said reaction mixture into phases, at least one phase comprising said lubricant additive. 3. The lubricant additive of claim 1 wherein the pentavalent, mono- or di-thiophosphate is selected from the group consisting of: neutral ZDDP (primary), neutral ZDDP (secondary), basic ZDDP, ZDDP salt, (RS)3P(s) where R>CH3, (RO)(R′S)P(O)SZn−, (RO)2(RS)PS where R>CH3, P(S)(S)Zn−, (RO)2P(S)(SR), R(R′S)2PS where R=CH3 and R>CH3, (RO)3,PS where R=CH3 and R′=alkyl, MeP(S)Cl2, (RO)2(S)PSP(S)(OR)2, P(S)(SH), (RO)(R′S)P(O)SZn−, SPH(OCH3)2, and combinations thereof. 4. The lubricant additive of claim 1 wherein the metal fluoride is 0.4 wt % powdered, masticated ferric fluoride. 5. The lubricant additive of claim 1 wherein the pentavalent, mono- or di-thiophosphate is ZDDP sufficient to provide a phosphorous content of about 0.01 wt % to about 0.05 wt % in a lubricant. 6. The lubricant additive of claim 1 wherein said reacting is of a duration from about 20 minutes to about 24 hours. 7. A method of manufacturing a lubricant additive comprising: mixing a metal fluoride with a pentavalent, mono- or di-thiophosphate;reacting the metal fluoride and the pentavalent, mono- or di-thiophosphate to produce a reaction mixture, the metal fluoride participating as a reactant, wherein the metal fluoride is selected from the group consisting of: aluminum trifluoride, zirconium tetrafluoride, titanium trifluoride, titanium tetrafluoride, ferric fluoride, chromium difluoride, chromium trifluoride, nickel difluoride, stannous difluoride, stannous tetrafluoride, and combinations thereof and wherein said reacting comprises heating a temperature from about 60° C. to about 125° C.; andseparating said reaction mixture into solid and liquid phases, at least one phase comprising said lubricant additive, the reaction producing, in the lubricant additive, at least one compound that comprises at least one phosphorus-fluorine bond. 8. The method of claim 7 wherein said lubricant additive is in the solid phase. 9. The method of claim 7 wherein said lubricant additive is in the liquid phase. 10. The lubricant additive of claim 7 wherein the pentavalent, mono- or di-thiophosphate is selected from the group consisting of: neutral ZDDP (primary), neutral ZDDP (secondary), basic ZDDP, ZDDP salt, (RS)3P(s) where R>CH3, (RO)(R′S)P(O)SZn−, (RO)2(RS)PS where R>CH3, P(S)(S)Zn−, (RO)2P(S)(SR), R(R′S)2PS where R=CH3 and R>CH3, (RO)3,PS where R=CH3 and R′=alkyl, MeP(S)Cl2, (RO)2(S)PSP(S)(OR)2, P(S)(SH), (RO)(R′S)P(O)SZn−, SPH(OCH3)2, and combinations thereof. 11. The method of claim 7 wherein said reacting comprises reacting from about 20 minutes to about 24 hours. 12. The method of claim 7 wherein the pentavalent, mono- or di-thiophosphate is ZDDP sufficient to provide a phosphorous content of about 0.01 wt % to about 0.05 wt % in a lubricant. 13. The method of claim 7 wherein the metal fluoride is 0.4 wt % powdered, masticated metal fluoride. 14. A lubricant produced by the process comprising: forming a lubricant additive by reacting metal fluoride and pentavalent, mono- or di-thiophosphate together to form a reaction mixture, the metal fluoride participating as a reactant, wherein the metal fluoride is selected from the group consisting of: aluminum trifluoride, zirconium tetrafluoride, titanium trifluoride, titanium tetrafluoride, ferric fluoride, chromium difluoride, chromium trifluoride, nickel difluoride, stannous difluoride, stannous tetrafluoride, and combinations thereof and wherein said reacting comprises heating to a temperature from about 60° C. to about 125° C.; andadding at least a portion of the reaction mixture to a lubricant base, the reaction producing, in the lubricant additive, at least one compound that comprises at least one phosphorus-fluorine bond. 15. The lubricant produced by the process of claim 14 wherein said reaction mixture comprises a supernatant, said supernatant separated from said reaction mixture to form said lubricant additive. 16. The lubricant produced by the process of claim 14 wherein said reaction mixture comprises a precipitate, said precipitate separated from said reaction mixture to form said lubricant additive. 17. The lubricant produced by the process of claim 14 wherein said lubricant base is selected from the group consisting of: GF4 engine oil without ZDDP, automatic transmission fluids, crankcase fluids, engine oils, hydraulic oils, gear oils, and combinations thereof. 18. The lubricant produced by the process of claim 14 wherein the pentavalent, mono- or di-thiophosphate is selected from the group consisting of: neutral ZDDP (primary), neutral ZDDP (secondary), basic ZDDP, ZDDP salt, (RS)3P(s) where R>CH3, (RO)(R′S)P(O)SZn−, (RO)2(RS)PS where R>CH3, P(S)(S)Zn−, (RO)2P(S)(SR), R(R′S)2PS where R=CH3 and R>CH3, (RO)3,PS where R=CH3 and R′=alkyl, MeP(S)Cl2, (RO)2(S)PSP(S)(OR)2, P(S)(SH), (RO)(R′S)P(O)SZn−, SPH(OCH3)2, and combinations thereof. 19. The lubricant produced by the process of claim 14 wherein the lubricant additive is formed by heating the metal fluoride and the pentavalent, mono- or di-thiophosphate together from about 20 minutes to about 24 hours. 20. A method for producing a lubricant comprising: forming a lubricant additive in a reaction mixture by reacting metal fluoride and pentavalent, mono- or di-thiophosphate together to form the reaction mixture, the metal fluoride participating as a reactant, wherein the metal fluoride is selected from the group consisting of: aluminum trifluoride, zirconium tetrafluoride, titanium trifluoride, titanium tetrafluoride, ferric fluoride, chromium difluoride, chromium trifluoride, nickel difluoride, stannous difluoride, stannous tetrafluoride, and combinations thereof and wherein said reacting comprises heating to a temperature from about 60° C. to about 125° C.; andadding at least a portion of the reaction mixture to a lubricant base to form said lubricant, the reaction producing, in the lubricant additive, at least one compound that comprises at least one phosphorus-fluorine bond. 21. The method of claim 20 wherein said reaction mixture comprises a supernatant, the method further comprising: separating said supernatant from said reaction mixture and adding at least a portion of said supernatant to said lubricant base. 22. The method of claim 20 wherein said reaction mixture comprises a precipitate, the method further comprising: separating said precipitate from said reaction mixture and adding at least a portion of said precipitate to said lubricant base. 23. The method of claim 20 wherein the pentavalent, mono- or di-thiophosphate is selected from the group consisting of: neutral ZDDP (primary), neutral ZDDP (secondary), basic ZDDP, ZDDP salt, (RS)3P(s) where R>CH3, (RO)(R′S)P(O)SZn−, (RO)2(RS)PS where R>CH3, P(S)(S)Zn−, (RO)2P(S)(SR), R(R′S)2PS where R=CH3 and R>CH3, (RO)3,PS where R=CH3 and R′=alkyl, MeP(S)Cl2, (RO)2(S)PSP(S)(OR)2, P(S)(SH), (RO)(R′S)P(O)SZn−, SPH(OCH3)2, and combinations thereof. 24. The method of claim 20 wherein said lubricant is selected from the group consisting of: GF4 engine oil without ZDDP, automatic transmission fluids, crankcase fluids, engine oils, hydraulic oils, gear oils, and combinations thereof. 25. The method of claim 20 wherein the lubricant additive is formed by heating fluoride and the pentavalent, mono- or di-thiophosphate together from about 20 minutes to about 24 hours. 26. A lubricant produced by the process comprising: adding metal fluoride and pentavalent, mono- or di-thiophosphate to a lubricant base; andreacting said metal fluoride and said pentavalent, mono- or di-thiophosphate to form a lubricant, the metal fluoride participating as a reactant, wherein the metal fluoride is selected from the group consisting of: aluminum trifluoride, zirconium tetrafluoride, titanium trifluoride, titanium tetrafluoride, ferric fluoride, chromium difluoride, chromium trifluoride, nickel difluoride, stannus difluoride, stannous tetrafluoride, and combinations thereof and wherein said reacting comprises heating to a temperature from about 60° C. to about 125° C., the reaction producing at least one compound that comprises at least one phosphorus-fluorine bond. 27. The lubricant produced by the process of claim 26 wherein said reaction mixture comprises a supernatant, said supernatant separated from said reaction mixture to form said lubricant. 28. The lubricant produced by the process of claim 26 wherein said reaction mixture comprises a solid lubricant. 29. The lubricant produced by the process of claim 26 wherein said lubricant base is selected from the group consisting of: GF4 engine oil without ZDDP, automatic transmission fluids, crankcase fluids, engine oils, hydraulic oils, gear oils, and combinations thereof. 30. The lubricant produced by the process of claim 26 wherein the pentavalent, mono- or di-thiophosphate is selected from the group consisting of: neutral ZDDP (primary), neutral ZDDP (secondary), basic ZDDP, ZDDP salt, (RS)3P(s) where R>CH3, (RO)(R′S)P(O)SZn−, (RO)2(RS)PS where R>CH3, P(S)(S)Zn−, (RO)2P(S)(SR), R(R′S)2PS where R=CH3 and R>CH3, (RO)3,PS where R=CH3 and R′=alkyl, MeP(S)Cl2, (RO)2(S)PSP(S)(OR)2, P(S)(SH), (RO)(R′S)P(O)SZn−, SPH(OCH3)2, and combinations thereof. 31. The lubricant produced by the process of claim 26 wherein the lubricant additive is formed by heating the metal fluoride and the pentavalent, mono- or di-thiophosphate together from about 20 minutes to about 24 hours. 32. A method for producing a lubricant comprising: reacting ferric fluoride with ZDDP at a temperature range of about 60° C. to about 125° C. for a period of about 20 minutes to about 24 hours, wherein the ferric fluoride acts primarily as a reactant, and wherein said reacting produces a reaction mixture; andadding at least a portion of said reaction mixture to a lubricant base, the reaction producing, in the mixture, at least one compound that comprises at least one phosphorus-fluorine bond.
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