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Cationic polymer and preparation method thereof

A technology of cationic polymer and polymerization solution, applied in the field of cationic polymer and its preparation, can solve the problems of long reaction process time, difficult to realize industrialization, high residual monomer amount, improve the efficiency and effect of removing residual monomers, and efficiently decompose The effect of triggering a reaction and reducing the risk of a violent gathering

Active Publication Date: 2021-03-26
JIANGSU FEYMER TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Therefore, some researchers have also begun to pay attention to the research of low-residue single DMDAAC polymers. Generally, high-temperature curing agents and prolonged time are used to reduce residual monomers. Some researchers also use purified DMDAAC monomers to produce low-residue monomers. samples, but the above-mentioned method has raw materials that are too harsh in the process of industrialization, or excessively prolonging the reaction time affects production efficiency
[0003] After long-term practice, the applicant found that the existing technology mainly has the following defects: 1. The reaction process time is too long, and the time is as long as 53 hours. Even after industrialization, the production efficiency is very low and the production cost is high
2. The requirements for raw materials are extremely high, and the industrial dimethyl diallyl ammonium chloride monomer is used after distillation and dehydration to 70-85%, and the industrialized dimethyl diallyl ammonium chloride monomer The impurity content of the material is significantly lower than the industrial level, and the requirements for raw materials are too harsh, so it is difficult to realize industrialization
3. Although some literature methods have greatly reduced the process time and effectively improved the production efficiency, the amount of residual monomers is too high or the upper limit of the molecular weight that can be achieved is too low
4. When preparing relatively high molecular weight products, the products are generally in the form of rubber blocks, and the way to improve the conversion rate is generally to embed a large number of high-temperature initiators. However, the embedded high-temperature initiators not only easily cause safety problems when the polymerization temperature is out of control, but also Due to the solid state of the product, it seriously affects the diffusion of free radicals and affects the effect of reducing residual monomers

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] 320g of dimethyl diallyl ammonium chloride monomer is added in the reactor, and 0.6g of disodium edetate (as a metal ion chelating agent), 0.25g of sodium hypophosphite (as a chain transfer agent) are added under stirring. agent), 94g deionized water, and the material was heated to 85° C. after 30 minutes with nitrogen to drive the oxygen to the material, and then started to drop initiator (70g concentration is 1% ammonium persulfate aqueous solution) and 140g dimethyl diallyl Ammonium chloride aqueous solution was added dropwise in 2.5 hours; then continue to control the temperature at 95-105°C and add the curing agent ① (3g ammonium persulfate, 0.5g azo initiator V50, 36.5g deionized water) and curing agent ② (1.5g sodium bisulfite, 28.5g deionized water), and use the internal circulation condenser to condense the water vapor generated in the kettle and return it to the reaction kettle to cool down the material. dropwise, the material in the reactor is cooled, and the...

Embodiment 2

[0031] 320g of dimethyl diallyl ammonium chloride monomer is added in the reactor, and 0.6g of disodium edetate (as a metal ion chelating agent), 0.25g of sodium hypophosphite (as a chain transfer agent) are added under stirring. agent), 94g deionized water, and the material was heated to 85° C. after 30 minutes with nitrogen to drive the oxygen to the material, and then started to drop initiator (70g concentration is 1% ammonium persulfate aqueous solution) and 140g dimethyl diallyl Ammonium chloride aqueous solution was added dropwise in 2.5 hours; then continue to add the curing agent ① (3g ammonium persulfate, 37g deionized water) and curing agent ② (1.5g sodium bisulfite, 28.5g deionized water), and finally cooled and diluted to the required solid content.

Embodiment 3

[0033] 320g of dimethyl diallyl ammonium chloride monomer is added in the reactor, and 0.6g of disodium edetate (as a metal ion chelating agent), 0.25g of sodium hypophosphite (as a chain transfer agent) are added under stirring. agent), 94g deionized water, and the material was heated to 85° C. after 30 minutes with nitrogen to drive the oxygen to the material, and then started to drop initiator (70g concentration is 1% ammonium persulfate aqueous solution) and 140g dimethyl diallyl Ammonium chloride aqueous solution is added dropwise in 2.5 hours; then continue to control the temperature at 95-105°C and add the curing agent ① (3g ammonium persulfate, 37g deionized water) dropwise, and finally cool down and dilute to the required solid content.

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Abstract

The invention discloses a cationic polymer and a preparation method thereof, and belongs to the technical field of water-soluble polymer preparation. The preparation method comprises the following steps: adding a dimethyl diallyl ammonium chloride monomer into a reaction kettle, adding the viscosity regulator, the metal ion chelating agent, the chain transfer agent and the deionized water while stirring to prepare a polymerization solution, and introducing nitrogen to expel air; raising the temperature to 75-95 DEG C, and starting to dropwise add an initiator and a dimethyl diallyl ammonium chloride monomer for 2-4 hours at a preset speed; dropwise adding a curing agent at 75-105 DEG C, curing for 1-3 hours, and adding water for dilution to obtain a target product. The viscosity regulatoris added into the reaction system, so that the product is kept in a flowing state when being polymerized to a relative high molecular weight, the dispersion of the initiator and the curing agent and the diffusion of free radicals are facilitated, and the residual monomer removal efficiency and effect are improved.

Description

technical field [0001] The invention belongs to the technical field of water-soluble polymer preparation, in particular to a cationic polymer and a preparation method thereof. Background technique [0002] Dimethyl diallyl ammonium chloride polymer is widely used in oil fields, papermaking, mining, textile printing and dyeing, water treatment and daily chemical products due to its stable structural unit, high cationic charge density, controllable molecular weight and low toxicity. and other fields. The commercial products of this kind of cationic polymer generally have the form of aqueous solution, solid dry powder and so on. Products in the form of aqueous solution are easy to use and more widely used. With people's emphasis on the environment and health and safety, low monomer residues are getting more and more attention. Therefore, some researchers have also begun to pay attention to the research of low-residue single DMDAAC polymers. Generally, high-temperature curing...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08F126/02C08F2/38C08F2/00C08F4/04C08F4/30C08F4/40
CPCC08F126/02C08F2/38C08F2/00C08F4/04C08F4/30C08F4/40
Inventor 须勇何国锋刘强周涛殷苏玲奚一伦
Owner JIANGSU FEYMER TECH
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