摘要
Six kinds of alkylbenzene sulfonic acids were selected to prepare the sulfonates S1—S6. Among them, the sulfonates S3, S4, and S6 could be incorporated into lubricating grease with good performance in comparison with the grease produced from commercial sulfonates T106-1 and T106-2. The optimized conditions for synthesis of the sulfonates S3, S4, and S6 were explored by using different mass ratios of methanol, water and the type of copromoters. It was found out that the appropriate conditions for synthesis of the sulfonate S3 included a methanol to M(M is the total mass of alkylbenzene sulfonic acid and base oil) mass ratio of 16%, a water to M mass ratio of 4%, and a copromoter A to M mass ratio of 2%; the appropriate conditions for synthesis of the sulfonate S4 included a methanol to M mass ratio of 24%, a water to M mass ratio of 2%, a copromoter B to M mass ratio of 2%; and the optimized conditions for synthesis of the sulfonate S6 included a methanol/ M mass ratio of 8%, a water/M mass ratio of 4% and a copromoter B/M mass ratio of 2%. The new sulfonates S3, S4, and S6 produced under the optimized conditions exhibited higher TBN and better antiwear property in camparison with the previous products. Grease samples G9, G10, and G11 were prepared with new sulfonates S3, S4, and S6 successfully and exhibited improved water stability and high temperature performance.
Six kinds of alkylbenzene sulfonic acids were selected to prepare the sulfonates S1-S6. Among them, the sulfonatesS3, S4, and S6 could be incorporated into lubricating grease with good performance in comparison with the greaseproduced from commercial sulfonates T106-1 and T106-2. The optimized conditions for synthesis of the sulfonates S3, S4,and S6 were explored by using different mass ratios of methanol, water and the type of copromoters. It was found out thatthe appropriate conditions for synthesis of the sulfonate S3 included a methanol to M (M is the total mass of alkylbenzenesulfonic acid and base oil) mass ratio of 16%, a water to M mass ratio of 4%, and a copromoter A to M mass ratio of 2%;the appropriate conditions for synthesis of the sulfonate S4 included a methanol to M mass ratio of 24%, a water to M massratio of 2%, a copromoter B to M mass ratio of 2%; and the optimized conditions for synthesis of the sulfonate S6 included amethanol/ M mass ratio of 8%, a water/M mass ratio of 4% and a copromoter B/M mass ratio of 2%. The new sulfonates S3,S4, and S6 produced under the optimized conditions exhibited higher TBN and better antiwear property in camparison withthe previous products. Grease samples G9, G10, and G11 were prepared with new sulfonates S3, S4, and S6 successfully andexhibited improved water stability and high temperature performance.
