Solid anti-friction devices – materials therefor – lubricant or se – Lubricants or separants for moving solid surfaces and... – Organic compound containing boron
Reexamination Certificate
1998-01-27
2002-03-19
Medley, Margaret (Department: 1714)
Solid anti-friction devices, materials therefor, lubricant or se
Lubricants or separants for moving solid surfaces and...
Organic compound containing boron
C508S222000, C508S291000, C526S262000
Reexamination Certificate
active
06358892
ABSTRACT:
The present invention relates to novel compositions comprising polyalkylene succinimides and post-treated derivatives of polyalkylene succinimides. In a further aspect, the invention relates to methods of preparing these compositions and their uses as dispersants in lubricating oils and deposit inhibitors in hydrocarbon fuels. In another aspect, the invention relates to concentrates, lubricating oil compositions, and hydrocarbon fuel compositions containing such novel compositions.
BACKGROUND OF THE INVENTION
Lubricating oil compositions for internal combustion engines generally contain a variety of additives to reduce or control deposits, wear, corrosion, etc. Similarly, liquid hydrocarbon fuels for internal composition engines, at a minimum, contain additives which control or reduce the formation of deposits. The present invention is concerned with compositions useful as dispersants or deposit inhibitors.
In lubricating oils, dispersants function to control sludge, carbon, and varnish produced primarily by the incomplete oxidation of the fuel, or impurities in the fuel, or impurities in the base oil used in the lubricating oil composition. Dispersants also control viscosity increase due to the presence of soot in diesel engine lubricating oils.
Deposit inhibitors in fuel control or reduce engine deposits also caused by incomplete combustion of the fuel. Such deposits can form on the carburetor parts, throttle bodies, fuel injectors, intake parts, and valves. Those deposits can present significant problems, including poor acceleration and stalling, and increased fuel consumption and exhaust pollutants.
One of the most effective class of lubricating oil dispersants and fuel deposit inhibitors are polyalkylene succinimides. In some cases, the succinimides have also been found to provide fluid-modifying properties, or a so-called viscosity index credit, in lubricating oil compositions. That results in a reduction in the amount of viscosity index improver which would be otherwise have to be used. A drawback of succinimide dispersants is that they have generally been found to reduce the life of fluorocarbon elastomers. In general, for a given succinimide dispersant, a higher nitrogen content gives better dispersancy but poorer fluorocarbon elastomer compatibility.
Therefore, as well as improving the dispersancy and VI credit properties of polyalkylene succinimides, it would be desirable to improve the fluorocarbon elastomer compatibility of such dispersants. It would further be desirable to improve the stability of polyalkylene succinimides, particularly hydrolytic stability and shear stress stability. It would also be desirable to improve soot dispersancy, especially where the lubricating oil is intended for use in diesel engine crankcases.
Polyalkylene succinimides are generally prepared by the reaction of the corresponding polyalkylene succinic anhydride with a polyalkyl polyamine. Polyalkylene succinic anhydrides are generally prepared by a number of well-known processes. For example, there is a well-known thermal process (see, e.g., U.S. Pat. No. 3,361,673), an equally well-known chlorination process (see, e.g., U.S. Pat. No. 3,172,892), a combination of the thermal and chlorination processes (see, e.g., U.S. Pat. No. 3,912,764), and free radical processes (see, e.g., U.S. Pat. Nos. 5,286,799 and 5,319,030). Such compositions include one-to-one monomeric adducts (see, e.g., U.S. Pat. Nos. 3,219,666 and 3,381,022), as well as “multiply adducted” products, adducts having alkenyl-derived substituents adducted with at least 1.3 succinic groups per alkenyl-derived substituent (see, e.g., U.S. Pat. No. 4,234,435).
U.S. Pat. Nos. 3,361,673 and 3,018,250 describe the reaction of an alkenyl- or alkyl-substituted succinic anhydride with a polyamine to form alkenyl or alkyl succinimides lubricating oil dispersants and/or detergent additives.
U.S. Pat. No. 4,612,132 teaches that alkenyl or alkyl succinimides may be modified by reaction with a cyclic or linear carbonate or chloroformate such that one or more of the nitrogens of the polyamine moiety is substituted with a hydrocarbyl oxycarbonyl, a hydroxyhydrocarbyl oxycarbonyl, or a hydroxy poly(oxyalkylene) oxycarbonyl. These modified succinimides are described as exhibiting improved dispersancy and/or detergency in lubricating oils.
U.S. Pat. No. 4,747,965 discloses modified succinimides similar to those disclosed in U.S. Pat. No. 4,612,132, except that the modified succinimides is described as being derived from succinimides having an average of greater than 1.0 succinic groups per long chain alkenyl substituent.
The effect of the alkenyl-derived substituent's molecular weight on the performance of succinimides as lubricating oil additives is described in “
The Mechanism of Action of Polyisobutenyl Succinimide Lubricating Oil Additives,
” by E. S. Forbes and E. L. Neustadter (Tribology, Vol. 5, No. 2, pp. 72-77 (April, 1972)). This article discusses, in part, the effect of polyisobutenyl Mn on the detergency properties of a polyisobutenyl succinimide. However, as shown in FIG. 1 on page 76 of their article, the results of the tests Forbes and Neustadter conducted indicate that succinimides having a 1300 Mn polyisobutenyl substituent are more effective as detergents than those having a polyisobutenyl substituent with a Mn of 2000 or greater. In showing the effect of polyisobutenyl molecular weight on succinimide detergency, this article teaches that maximum detergency performance is obtained when the polyisobutenyl group has a Mn of about 1300.
A recent article by S. T. Roby, R. E. Kornbrekke, and J. A. Supp “Deposit Formulation in Gasoline Engines, Part 2, Dispersant Effects on Sequence VE Deposits” J
OURNAL OF THE
S
OCIETY OF
T
RIBOLOGISTS AND
L
UBRICATION
E
NGINEERS
, Vol. 50, 12, 989-995 (December 1994) teaches that the length of the dispersant alkyl side chain influences deposit control performance, and that, at the same nitrogen level, the low molecular weight (side chain 1000 daltons) dispersants that were tested were poorer than the tested high molecular weight (side chain 2000 daltons) succinimide dispersants. This teaching is also consistent with our prior observation comparing 950 Mn side chain succinimides with 2200 Mn side chain succinimides.
U.S. Pat. No. 4,234,435 teaches a preferred polyalkene-derived substituent group with a Mn in the range of 1500-3200. For polybutenes, an especially preferred Mn range is 1700-2400. This patent also teaches that the succinimides must have a succinic ratio of at least 1.3. That is, there should be at least 1.3 succinic groups per equivalent weight of polyalkene-derived substituent group. Most preferably, the succinic ratio should be from 1.5 to 2.5. This patent further teaches that its dispersants also provide an improvement in viscosity index. That is, these additives impart fluidity modifying properties to lubricant compositions containing them. This is considered desirable for use in multigrade lubricating oils but undesirable for single-grade lubricating oils.
Polyamino alkenyl or alkyl succinimides and other additives useful as dispersants and/or detergents, such as Mannich bases, contain basic nitrogen. While basicity is an important property to have in the dispersant/detergent additive, it is believed that the initial attack on fluorocarbon elastomer seals used in some engines involves attack by the basic nitrogen. This attack leads to the loss of fluoride ions, and eventually results in cracks in the seals and loss of other desirable physical properties in the elastomer.
A variety of post-treatments for improving various properties of alkenyl succinimides are known to the art, a number of which are described in U.S. Pat. No. 5,241,003.
Example 2 of U.S. Pat. No. 5,266,186 discloses the preparation of dispersants by reacting certain polyisobutenyl-succinic anhydride adducts (see footnote 2 of Table 2) with ethylenediamine, followed by reaction with a maleic anhydride/&agr;-olefin copolymer. The patent teaches that, by functioning as an iron sulfide dispersant, the produ
Harrison James J.
Ruhe, Jr. William R.
Chevron Chemical Company
Medley Margaret
Sheridan Richard J.
Stumpf Walter L.
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