Chemisorption fibres based on graft copolymers: Fabrication and properties. A review

Druzhinina, T. V.; Nazar'ina, L. A.

doi:10.1007/bf02358329

Fibre Chem

1999

DOI: 10.1007/bf02358329

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Chemisorption fibres based on graft copolymers: Fabrication and properties. A review

T. V. Druzhinina¹,

L. A. Nazar'ina²

Abstract: Scientific concepts concerning the characteristics of graft polymerization to oriented polymeric materials and p~lymer-anal~g transf~rmati~ns ~f the graft p~lymer were elab~rated based ~n systematic studies. The principles of fabrication of sorption-active fibre materials Of different ~,pes based on graft copolymers and the most important directions of their use were formulated.The consequences of human technological activity has sharply worsened the environmental situation, making environmental protection an … Show more

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Cited by 9 publications

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“…In addition, it was found that the degree of conversion of epoxy rings decreased with an increase in the degree of GMA graft polymerization [4][5][6][7][8]. These facts were also attributed to the effect of steric factors [8].…”

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confidence: 94%

“…Experiments on amination of PGMA chains grafted onto the surface of polymer fi bers by reactions of these chains with aliphatic polyamines also showed that the density of the incorporated amino groups decreased with an increase in the length of the reacting polyamine molecule [4][5][6][7][8]. In addition, it was found that the degree of conversion of epoxy rings decreased with an increase in the degree of GMA graft polymerization [4][5][6][7][8].…”

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confidence: 97%

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Specific features of amination of poly(glycidyl methacrylate) chains grafted onto polypropylene fibers

Bondar

Han

2012

Russ J Appl Chem

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Amination with diethylenetriamine of poly(glycidyl methacrylate) chains grafted onto polypropylene fi bers by the radiation-chemical procedure was studied.Adsorbents containing amino groups show high selectivity and performance in preconcentration and selective recovery of heavy metal ions from multicomponent solutions [1][2][3][4][5][6][7][8][9]. A widely used route to amine-containing adsorbents is amination of poly(glycidyl methacrylate) (PGMA) as a component of polymeric matrix, or of PGMA chains grafted onto the surface of polymer fi bers of various chemical structures. The epoxy groups of glycidyl methacrylate (GMA) are readily opened in reactions with amines or polyamines, with incorporation of amino groups.Specifi c features of amination of PGMA-based microgranules in reactions with various aliphatic polyamines (ethylenediamine, EDA; diethylenetriamine, DETA; triethylenetetramine, TETA; tetraethylenepentamine, TEPA) were considered in several papers [1-3]. A decrease in the density of the incorporated polyamine groups in the order EDA > DETA > TETA > TEPA was noted and was attributed to the steric effect.Experiments on amination of PGMA chains grafted onto the surface of polymer fi bers by reactions of these chains with aliphatic polyamines also showed that the density of the incorporated amino groups decreased with an increase in the length of the reacting polyamine molecule [4][5][6][7][8]. In addition, it was found that the degree of conversion of epoxy rings decreased with an increase in the degree of GMA graft polymerization [4][5][6][7][8]. These facts were also attributed to the effect of steric factors [8].Thus, PGMA amination by opening of epoxy rings in reactions with amines and polyamines is characterized by a steric effect infl uencing the density of the incorporated amino groups and the conversion of epoxy groups. However, this matter has been studied insuffi ciently. In particular, in amination of grafted PGMA chains, the steric effect associated with an increase in the degree of GMA graft polymerization practically has not been examined.This study deals with amination with diethylenetriamine of PGMA chains grafted onto polypropylene fi bers by a radiation-chemical procedure. To reveal the specifi c features of amination, we studied in detail the variation of both the density of the incorporated amino groups and the degree of epoxy ring conversion in relation to the degree of GMA graft polymerization and analyzed the localization of the incorporated amino groups in the grafted PGMA layer.The results we obtained allowed us to elucidate the origin of the steric effect in samples with high degrees of GMA graft polymerization and to give recommendations on the choice of optimal conditions for preparing chemically active polypropylene fibers with DETA groups.

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Specific features of amination of poly(glycidyl methacrylate) chains grafted onto polypropylene fibers

Bondar

Han

2012

Russ J Appl Chem

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“…Among the known ways to obtain chemisorption fibers, the method based on the graft polymerization and chemical transformation in the polymer chains is the most promising [3]. This is because modification of a finished fiber is a simpler technological process, compared with that in which fibrous chemisorbents are obtained by synthesis of copolymers with functionally active groups and then fibers are formed.…”

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Mathematical Description of the Kinetics of the Heterophase Macromolecular Reaction of Hydrazidation of Grafted Polyglycidyl Methacrylate

2005

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Hydrazidation of a grafted copolymer of polycaproamide and polyglycidyl methacrylate was mathematically modeled by solving the diffusion equation with a boundary condition in the form of a flow.At present, an important role in the environment protection is played by sorption-active polymeric materials, including those in the fibrous form [1,2]. However, only two kinds of chemisorption fibers are manufactured industrially (TsM-A2 and Mtilon-1) and the VION-KN fiber is produced at a pilot plant. Other types of fibrous chemisorbents are manufactured as one-time pilot batches. Of fundamental importance for the functioning of modern industrial processes used to manufacture chemisorption fibers is mathematical modeling, which makes it possible to create reliable systems for the control techniques being developed. In this context, the aim of this study was to construct a mathematical model of the heterophase macromolecular reaction in which a special class of branched polymers-grafted copolymers of polycaproamide (PCA) and polyglycidyl methacrylate (PGMA), undergoes hydrazidation, in order to solve the problem of optimization of the process for production of fibrous chemisorption materials with predictable sorption properties.Among the known ways to obtain chemisorption fibers, the method based on the graft polymerization and chemical transformation in the polymer chains is the most promising [3]. This is because modification of a finished fiber is a simpler technological process, compared with that in which fibrous chemisorbents are obtained by synthesis of copolymers with functionally active groups and then fibers are formed. Owing to the distribution of sorption-active groups in the surface layers of the fiber, the sorbent has good mechanical properties and the highly developed specific surface area provides high rates of mass-exchange processes. The wide diversity of forms of fibrous sorption materials enables their efficient technological implementation in sorption processes [4].Previously, the modified quasi-stationary method (MQM) has been used for mathematical analysis of the occurring processes in studying the fundamental aspects of the kinetics of polymer-analogous transformations of grafted PGMA under the action of sulfur-containing compounds (thiourea and potassium thiocyanate) [5] and diamines (ethylenediamine and hexamethyldiamine) [6]. As this method is based on a simple summation of the kinetic and diffusion resistances, it can only be regarded as a simplified mathematical model, whose disagreement with the experiment may be as wide as 15% [7]. Therefore, a more precise mathematical kinetic model derived by analytical solution of the equation of isotropic diffusion [8] was adopted in the present study.The interaction between the oxirane groups of a grafted PCA3PGMA copolymer and hydrazine hydrate underlies the method for production of the POLAN-OG chemisorption fiber having a high sorption capacity and good sorption kinetics [9]. The macrokinetics of this interaction was described by solving the equation...

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“…Methods based on graft polymerization of ionogenic monomers to fibrous materials and polymer-analog transformations of graft copolymers are especially effective. The use of these methods allowed developing the principles of technology for fibrous complexes of different functional composition [6][7][8]. The positive experience in obtaining amine-containing chemisorbents from graft copolymers with polyglycidyl methacrylate (PGMA) makes the use of graft copolymers of polycaproamide and polymethyl methacrylate (PCA-PMMA) attractive for fabricating fibrous sorbents of acid character.…”

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Production of carboxyl-containing derivatives of polymethyl methacrylate and polycaproamide graft copolymer

2008

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In studying heterophase alkaline hydrolysis of ester groups in graft PMMA chains, the role of the structure of the polymer in the macromolecular reaction in the solid phase was revealed. A decrease in the degree of conversion of graft PMMA with an increase in its content in PCA-PMMA graft copolymer, caused by a change in the packing density of the graft chains, was established. The highest degree of saponification was attained in using graft copolymers containing 25-35% graft PMMA. Chemisorption, carboxyl-containing polycaproamide fibre with a SEC for NaOH of 1.3 mmole/g was obtained as a result of saponification of PCA-PMMA graft copolymers.Heterogeneous processes for synthesis of sorption-active polymer derivatives that take place during reactions in the chains of graft copolymers are important not only for accumulating experimental data on reactions in the surface layers of polymers but also for obtaining new chemically modified polymeric materials [1][2][3].Chemical modification of polymeric materials that provides for incorporation of sorption-active groups is a very promising method of obtaining fibrous sorbents with respect to reaching a certain level of functional properties and technological effectiveness of the process itself both in the stage of synthesis and in the conditions of sorption [4,5]. Methods based on graft polymerization of ionogenic monomers to fibrous materials and polymer-analog transformations of graft copolymers are especially effective. The use of these methods allowed developing the principles of technology for fibrous complexes of different functional composition [6][7][8]. The positive experience in obtaining amine-containing chemisorbents from graft copolymers with polyglycidyl methacrylate (PGMA) makes the use of graft copolymers of polycaproamide and polymethyl methacrylate (PCA-PMMA) attractive for fabricating fibrous sorbents of acid character. We investigated the characteristics of synthesis of carboxyl-containing derivatives of graft copolymers of PCA and PMMA to fabricate fibrous sorbents.We investigated polycaproamide fibre modified by grafting with polymethyl methacrylate as the surface layer. Our previous studies on the example of PCA-PGMA graft copolymers was the basis of the notion concerning the surface distribution of PMMA in a polyamide matrix [9], where the fibre becomes hollow after elimination of the polycaproamide from the modified fibre (Fig. 1).PCA and PMMA graft copolymers were synthesized by radical graft polymerization in the presence of the Cu x -H 2 O 2 redox system with fixation of the copper complex in the fibre. Since methyl methacrylate is limitedly soluble in water, the graft polymerization reaction was conducted in an emulsion. The nonionogenic surfactant Neonol in the amount of 0.2% in solution was used as the emulsifier. According to the distribution histogram, the aqueous emulsion of methyl methacrylate was characterized by relatively good stability at room and high (80°C) temperatures.Graft polymerization was conducted with a 0.8 M concentration...

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Chemisorption fibres based on graft copolymers: Fabrication and properties. A review

Cited by 9 publications

References 17 publications

Specific features of amination of poly(glycidyl methacrylate) chains grafted onto polypropylene fibers

Specific features of amination of poly(glycidyl methacrylate) chains grafted onto polypropylene fibers

Mathematical Description of the Kinetics of the Heterophase Macromolecular Reaction of Hydrazidation of Grafted Polyglycidyl Methacrylate

Production of carboxyl-containing derivatives of polymethyl methacrylate and polycaproamide graft copolymer

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