TH22643A - Cyanide coupled metal catalyst High-acting - Google Patents

Abstract

Has revealed a highly potent cyanide binary metal (DMC) catalyst. The catalyst consists of the DMC complex, the organic complexing agent, and from approximately 5 to approximately 80% by weight using catalyst-base amounts, of polyether with an average molecular weight of more than 500. Also disclosed the method of preparing to accelerate That reaction The catalysts are easy to prepare, have exceptionally good acting, and can be separated if desired from polymer products.

Claims (3)

1.Solid Cyanide Double Metal (DMC) Catalyst Which has expanded its action for Epoxide polymerization compared with prepared catalyst while there is no polyether, the catalyst contains: (a) cyanide binary metal compound: (b) auxiliaries. Make organic complexes; And (c) from 5 to 80% wt, using catalyst-base content, of polyether 2. The catalyst of claim 1, which is unique in that the cyanide binary compound is zinc hexacyanocobaltate. 3. Catalyst. Of claim 1 or claim 2, which is unique in that the substance Make organic spatula tert-butyl alcohol. 4. Catalyst of one of the previous claims. Which has the peculiarity that the polyether is polyether Polyols with an average molecular weight by number within the range 1000 to 10,000 5. The catalyst of one of the previous claims. Which has specific characteristics that have The polyether is from 10 to 70% by weight. 6. The solid cyanide coupled metal (DMC) catalyst of claim 1, in which the catalyst contains: (a) zinc compound. Hexasaiyanocobaltate; (b) tert-butyl alcohol; And (c) from 10 to 70% by weight using the amount of catalyst as the base, of the polyether Polyols with average molecular weight by amounts within the range 1000 to 5,000 1.07, 3.59, 2.54, 2.28 8. Catalyst of claim 6 or claim 7, where the cobalt content is within the range 5 to 10. % By weight 9. Catalyst of one of the previous claims Which has a characteristic that polyether Is poly (oxypropylene) diol. With average molecular weight by number within the range 2000 to 4000 1 0. The catalyst of one of the previous claims Which has specific characteristics that have The polyether is from 15 to 60% by weight 1 1. Method which consists of a solid preparation of the double metal cyanite (DMC) catalyst while the organic complexing agent is used. And polyether with average molecular weight by The solid DMC catalyst contains from 5 to 80% polyether by weight 1 2. Method of claim 11, which is characterized by that the polyether It is a polyether polyol with an average molecular weight by an amount within the range of 1000 to 10,000 1 3. Method of claim 12, which is characterized by that polyether is poly (out Cypropylene) diol with average molecular weight by number within the range 2000 to 4000 1 4. Method of claim 11 to 13, any one It has the characteristics that the DMC catalyst is zinc. Hexacyanocobaltate 1 5. One of the Clause 11 to 14 Clause 14, characterized by that the DMD catalyst is polyether from 15 to 60% by Weight 1 6. Method for any of Clause 1 to 15. Which has the characteristics that the auxiliary substances Make organic complexes into tert-butyl alcohols 1 7. Method of claim 16 which includes: (a) reacts an acidic alkaline solution of (excess) metal salts and metal salts. cyanide While having organic complexing agents By using efficient mixtures to produce slurries Catalyst; (b) Mix the catalyst slurry with the polyether; (c) Separation of solid catalyst containing polyether from that slurry (d) washing of solid catalyst containing polyether with acquyase solution. With auxiliary substances Additional complexes; And (e) Reversible, solid DMC catalyst 1 8. Method of claim 17, which is characterized by that the acrylase solution of the excipient is The organic complexes in step (d) include the additional polyether 1 9. Method of claim 18, which is characterized by that after step (d), the catalyst is flushed. The solid reaction with the washed polyether is Again with additional complexing agents or polyether mixtures. And complexing aids 2 0. Method of claim 6, which includes: (a) React an acidic solution of metal salts (excess) and metal sinanide salts. While having organic complexing agents By using efficient blends to produce slurry Catalyst; (b) Mixing the catalyst slurry efficiently with the diluent consisting of an additional organic complex compound acryl solution (c) mixing the catalyst thickener from the procedure. (b) with pl ether (d) solid catalyst separation with polyether From that slurry; and (e) purified separation, solid DMC catalyst 2 1. Method of claim 20, which is characterized by that after procedure (d), the polymer-containing catalyst is washed with additional complexing agents. Or mixtures of polyether and additional complexing agents 2 2. Any method of Clause 17 to 20. Which has the characteristics that are mixed Slurry, catalyst with polyether using low shear mixture 2 3.Processes for epoxide polymerization, which include Epoxide reaction And starting substances with hydroxyl groups While there is a catalyst of Clause 1 to 10, any one Or made by any of the Clause 11 to 21 method