PP-ST-DVB-based cation exchange fiber and synthesis method thereof

A PP-ST-DVB, 1. PP-ST-DVB technology, applied in the field of PP-ST-DVB-based cation exchange fiber material and its synthesis, fiber material and its synthesis, can solve the problem that carboxyl fibers are prone to collapse, easy Continue to solve problems such as hydrolysis and large fiber structure to achieve the effects of avoiding the use of carcinogens, easy control, good shape and uniformity

Active Publication Date: 2018-06-22
HENAN ACADEMY OF SCI CHEM RES INST CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] In the above literature report, "Synthesis of carboxyl-containing ion exchange fiber and its effect on UO 2 2+ "Study on the adsorption performance of polyacrylonitrile fiber-CN group hydrolysis to prepare weakly acidic fibers, using a two-step method, the carboxyl fibers prepared by this method are prone to collapse and short flow when used in water purification filled adsorption columns, and Soaking for a long time is easy to continue hydrolysis, resulting in a large loss of fiber structure; "Preparation of Weakly Acidic Polypropylene Ion Exchange Fiber and Its Application in Adsorption and Recovery of Rare Earth Elements" is to graft acrylic acid monomers to On the polypropylene fiber, its carboxyl content is 9.5mmol/g, but its adsorption capacities for yttrium, cerium, praseodymium and neodymium are only 1.73mmol/g, 2.58mmol/g, 0.74mmol/g, 1.93mmol/g in actual application. g, much lower than its carboxyl content, which may be due to the small distance between the grafted carboxyl and the polypropylene backbone, due to steric hindrance during adsorption, some carboxyl groups cannot function or multiple carboxyl groups

Method used

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  • PP-ST-DVB-based cation exchange fiber and synthesis method thereof
  • PP-ST-DVB-based cation exchange fiber and synthesis method thereof

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0016] 4.2g of maleic anhydride, AlCl 3 -LiClO 4 Put 5.1g and 80mL of dichloromethane into a three-necked flask and stir to disperse them, put in 1g of pretreated PP-ST-DVB fiber (the grafting amount of ST-DVB is 350%), and control the temperature at 35°C for ultrasonic oscillation React for 1 hour under the same conditions, take out the fiber after the reaction, first extract the organic solvent in the fiber with absolute ethanol or acetone, and then wash it with deionized water until it is neutral; soak it with 0.5M acid for 12 hours, then wash it with deionized water until it is neutral. Neutral, dry to constant weight to obtain H-type PP-ST-DVB-based cation-exchange fibers; or according to the needs of use, the obtained H-type PP-ST-DVB-based cation-exchange fibers can be soaked in 0.5M NaOH solution for 12 hours, Wash with deionized water until neutral, and dry to constant weight to obtain Na-type PP-ST-DVB-based cation exchange fibers. The carboxyl group content was m...

Embodiment 2

[0018] Maleic anhydride 1.6g, FeCl 3 -LiClO 4Put 2.2g and 80mL of dichloroethane into a three-neck flask and stir, ultrasonically dissolve it, put in 1g of pretreated PP-ST-DVB fiber (the grafting amount of ST-DVB is 250%), and control the temperature at 20°C React for 2 hours under the condition of ultrasonic oscillation. After the reaction, take out the fiber, first extract the organic solvent in the fiber with absolute ethanol or acetone, and then wash it with deionized water until neutral; soak it in 0.5M acid for 12 hours, then wash it with deionized water Wash to neutral and dry to constant weight to obtain H-type PP-ST-DVB-based cation exchange fibers; or according to the needs of use, the obtained H-type PP-ST-DVB-based cation-exchange fibers can be soaked in 0.5M NaOH solution After 12 hours, wash with deionized water until neutral, and dry to constant weight to obtain Na-type PP-ST-DVB-based cation exchange fibers. The carboxyl group content was measured to be 7.4 ...

Embodiment 3

[0020] Succinic anhydride 0.7g, FeCl 3 -LiClO 4 Put 1.0g and 120mL of nitrobenzene into a three-necked flask and stir to dissolve, put in 1g of pretreated PP-ST-DVB fiber (the grafting amount of ST-DVB is 300%), and control the temperature at 10°C for ultrasonic oscillation React for 8 hours under the same conditions. After the reaction, take out the fiber, first extract the organic solvent in the fiber with absolute ethanol or acetone, and then wash it with deionized water until it is neutral; soak it with 0.5M acid for 12 hours, then wash it with deionized water until Neutral, dry to constant weight to obtain H-type PP-ST-DVB-based cation exchange fibers; or according to the needs of use, the obtained H-type PP-ST-DVB-based cation exchange fibers can be soaked in 0.5M NaOH solution for 12 hours , washed with deionized water to neutrality, and dried to constant weight to obtain Na-type PP-ST-DVB-based cation exchange fibers. The carboxyl group content was measured to be 8....

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Abstract

The invention discloses a PP-ST-DVB-based cation exchange fiber and a synthesis method thereof, and belongs to the technical field of polymer materials. A PP-ST-DVB fiber is taken as a raw material fiber, a benzene ring on the PP-ST-DVB fiber and an organic compound containing an intramolecular acid anhydride group are subjected to a reaction under the action of a catalyst, carboxyl is introduced,and the fiber material containing carboxyl is obtained. The fiber material has high carboxyl content, maintains good shape, elasticity and strength, and has application prospect in functional textiles, water and air purification, chemical substance separation and extraction, and the like. According to the synthesis method, carboxyl is introduced into the polypropylene fiber grafted with styrene with a one-step method, so that the use of carcinogens such as chloromethyl ether in the traditional synthesis method is avoided, and the synthesis method is simple in process, mild in condition and easy to control.

Description

technical field [0001] The invention relates to a fiber material and a synthesis method thereof, in particular to a PP-ST-DVB-based cation exchange fiber material and a synthesis method thereof, belonging to the technical field of polymer materials. Background technique [0002] Textile fibers are a good source of raw materials for new materials due to their abundant supply, variety and affordable prices. Common textile fibers (synthetic and natural) can be functionalized or pre-grafted to allow further functionalization, such as polypropylene fiber radiation grafting or solution chemical reaction grafting of styrene and divinylbenzene , is the preferred route for the functionalization of polypropylene fibers. There have been decades of research at home and abroad, the technology is mature, and related products have been commercialized. Functionalized fibers not only maintain the original characteristics and advantages of fibers, but also have various special properties and...

Claims

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Application Information

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IPC IPC(8): B01J39/22B01J20/28B01J20/26B01D53/02C02F1/28D06M14/10B01J20/30C02F101/20
CPCB01D53/02B01J20/265B01J20/28038B01J39/22C02F1/285C02F2101/20D06M14/10
Inventor 段文杰赵亮田振邦黄伟庆黄做华王静赵东王俊
Owner HENAN ACADEMY OF SCI CHEM RES INST CO LTD
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