Process for continuously making high molecular weight tetrapolymer for use in anti-vibration applications

摘要

A process and articles for continuously making a tetrapolymer using two reactors connected in series with two unsaturated hydrocarbon streams, two injections of ethylene monomer, two injections of propylene monomer, and two injections of two different non-conjugated diene monomers with a Ziegler-Natta, a catalyst, a co-catalyst, and an optional promoter. The process allows for the creation of products and articles with high molecular weights while utilizing continuous flow reactors in series. The process allows for manufacture of anti-vibration articles made by tetrapolymers.

主权项

1. A process for continuously making a high molecular weight tetrapolymer, the process comprising:
a. in a first reactor:
(i) introducing a saturated hydrocarbon stream;(ii) introducing a propylene monomer to the saturated hydrocarbon stream at a rate to achieve a propylene content of 20 percent to 35 percent of total weight in a high molecular weight tetrapolymer product;(iii) introducing hydrogen gas to the saturated hydrocarbon stream at a rate to control a molecular weight of the high molecular weight tetrapolymer product;(iv) introducing a first non-conjugated diene to the saturated hydrocarbon stream at a rate to achieve a first non-conjugated diene content of 0.2 percent to 2.0 percent by weight in the high molecular weight tetrapolymer product;(v) introducing a second non-conjugated diene to the saturated hydrocarbon stream at a rate to achieve a second non-conjugated diene of 0.2 percent to 15.0 percent by weight content in the high molecular weight tetrapolymer product, wherein the first non-conjugated diene is different from the second non-conjugated diene;(vi) introducing an ethylene monomer to the saturated hydrocarbon stream at a rate to initiate the polymerization reaction and achieve ethylene content of 50 percent to 80 percent of the total weight in the high molecular weight tetrapolymer product;(vii) cooling the combined saturated hydrocarbon stream, the propylene monomer, the hydrogen gas, the first non-conjugated diene, the second non-conjugated diene, and the ethylene monomer to below 35 degrees Celsius to create a cooled mixture;(viii) introducing a Ziegler-Natta catalyst and a co-catalyst, and optionally a promoter into the cooled mixture, wherein:
1. the Ziegler-Natta catalyst comprises a transition metal compound, and the Ziegler Natta catalyst is introduced at a feed rate to sustain a continuous reaction;2. the co-catalyst comprises a metal alkyl comprising a halogen element; and3. the promoter, optionally, comprises an oxidizing agent capable of oxidizing the transition metal, and generating at least one halogen free-radical per mole of the promoter;(ix) reacting the cooled mixture, the Ziegler-Natta catalyst, the co-catalyst, the promoter, optionally, the first non-conjugated diene, and the second non-conjugated diene for 15 minutes to 60 minutes at a temperature from 35 degrees Celsius to 65 degrees Celsius and at pressure from 190 psig to 230 psig; and forming the high molecular weight tetrapolymer product having the following characteristics:
1. polymer chain branching having a tangent delta ranging from 0.15 to 0.75;2. a non-linear relationship between viscosity and shear having the tangent delta from 0.15 to 0.75;3. a weight average molecular weight from 1,500,000 Daltons to 2,500,000 Daltons;4. a dynamic complex viscosity from 1,500,000 Pa·sec to 3,500,000 Pa·sec;5. an ethylene to propylene ratio ranging from 50:50 to 90:10 by weight forming an ethylene rich high molecular weight tetrapolymer product;6. a molecular weight distribution ranging from 1.0 to 2.2;7. a first non-conjugated diene content of 0.2 percent to 2 percent by weight content based upon a total weight of the high molecular weight tetrapolymer product; and8. a second non-conjugated diene content of 0.2 percent to 15 percent by weight content based upon the total weight of the high molecular weight tetrapolymer product; and b. in a second reactor continuously receiving the high molecular weight tetrapolymer product from the first reactor:
(i) introducing a saturated hydrocarbon stream to the second rector;(ii) introducing a propylene monomer to the saturated hydrocarbon stream in the second reactor at a rate to achieve a total propylene content of 29 percent to 45 percent of a total weight in the high molecular weight tetrapolymer product;(iii) introducing a first non-conjugated diene to the saturated hydrocarbon stream in the second reactor at a rate to achieve a first non-conjugated diene content in the high molecular weight tetrapolymer product;(iv) introducing a second non-conjugated diene to the saturated hydrocarbon stream at a rate to achieve a second non-conjugated diene content in the high molecular weight tetrapolymer product;(v) introducing an ethylene monomer to the saturated hydrocarbon stream at a rate to initiate a polymerization reaction and achieve a ethylene content from 60 percent to 80 percent of total weight in the high molecular weight tetrapolymer product;(vi) cooling the combined saturated hydrocarbon stream, propylene monomer, the first non-conjugated diene, the second non-conjugated diene, and the ethylene monomer in the second reactor to below 35 degrees Celsius to create a cooled mixture;(vii) continuously introducing an additional Ziegler-Natta catalyst and an additional co-catalyst, and optionally an additional promoter, into the cooled mixture in the second reactor, wherein:
1. the additional Ziegler-Natta catalyst comprises a transition metal compound and is introduced at a feed rate to sustain a continuous reaction;2. the additional co-catalyst comprises a metal alkyl comprising a halogen element; and3. the additional promoter optionally, comprises an oxidizing agent capable of oxidizing the transition metal and generating at least one halogen free-radical per mole of the promoter;(viii) reacting the combined cooled mixture, the additional Ziegler-Natta catalyst and the additional co-catalyst, the additional promoter optionally, in solution phase for 15 minutes to 60 minutes at a temperature from 35 degrees Celsius to 65 degrees Celsius and at a pressure from 190 psig to 230 psig that is lower than the pressure used in the first reactor, forming the high molecular weight tetrapolymer product with the following characteristics:
1. polymer chain branching having a tangent delta ranging from 0.15 to 0.75;2. a non-linear relationship between viscosity and shear having the tangent delta from 0.15 to 0.75;3. a weight average molecular weight from 500,000 Daltons to 1,500,000 Daltons;4. a dynamic complex viscosity from 600,000 Pa·sec to 1,400,000 Pa·sec;5. an ethylene to propylene ratio ranging from 55:45 to 90:10 by weight forming an ethylene rich high molecular weight tetrapolymer product;6. a molecular weight distribution ranging from 2.3 to 10.0;7. a first non-conjugated diene content of 0.2 percent to 2 percent by weight content based upon the total weight of the high molecular weight tetrapolymer product; and8. a second non-conjugated diene content of 0.2 percent to 15 percent by weight content based upon the total weight of the high molecular weight tetrapolymer product.