A.N. Gonchar scite author profile

This review covers almost all known categories of compounds used to modify montmorillonite to obtain nanocomposites based on polar polymers. Organic modifiers such as quaternary ammonium ions, quaternary phosphonium ions, amino acids and other organic compounds are commonly used to modify montmorillonite (MMT). The main directions of scientific research in this field are considered, namely the modification of MMT with ammonium surfactants, phosphonium surfactants, amino acids and nonionic surfactants. The review used 67 sources related to peer-reviewed publications, mostly from the last 10-15 years. The largest number of publications devoted to the modification of MMT was published in the period from 2004 to 2016. Nanocomposites based on epoxy resins are especially widely presented in the literature. Epoxy-based materials have been used for many years as convenient matrices for dispersing MMT due to the advantages of properties of the obtained polymer nanocomposites, such as mechanical strength, non-flammability and thermal stability. The methods of surface modification of MMT with organic modifiers considered in the article are a powerful tool for the production of polymer nanocomposite materials based on polar polymers. Amine modification of MMT allowed the formation of highly effective materials, in particular epoxy/MMT materials. These nanocomposites have demonstrated extraordinary material properties compared to virgin polymers and can therefore be used as an alternative to conventional materials such as steel and wood, reducing the cost and weight of products. Nanocomposites based on polar polymers occupy an important place among all polymer nanocomposites as modern materials used in the aerospace, automotive and electrical industries.

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Polyurethaneacrylate/montmorillonite nanocomposites

Gonchar¹,

Savelyev²,

Travinskaya³

2021

Polim. z.

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In order to create polymer nanocomposites with high performance on the basis of polyurethaneacrylates (PUA) with montmorillonite (MMT), three methods of chemical modification of the layered silicate surface have been developed. The first modification method is based on using of two different functional modifiers (organophilic and reactive), the second method is based on modification with synthesized by us compound which contains urethane groups, and the third one in based on using synthesized by us modifier containing urethane and other reactive groups. Exchange capacity of the MMT surface was determined by adsorption of indicator “methylene blue”. Intercalation of modifier into the interlayer space of MMT was confirmed by X-ray analysis; the content of organic component in the modified MMT (MMT/M) was determined by thermogravimetric analysis. The resulting organoclay is purposed for the formation of nanostructured composites based on cross-linked polyurethane acrylates with improved physical and mechanical properties. The obtained polyurethaneacrylate nanocomposites with different type MMT/M exhibit the increased in 1,6–2,6 times tensile strength as compared to original polymer matrix. WAXS method has proved an intercalation of modifier into MMT interlayer space (increased distance between layers after modification), as well as the total exfoliation of MMT in PUA matrix, characterized by the disappearance of the absorption peak which is responsible for layered structure.

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Rheological properties of cellulose-chitosan-phosphoric acid systems in different phase states

et al. 2014

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Rheological properties of 7.0-9.1% cellulose-chitosan suspensions, solutions, and gels in aque ous phosphoric acid were examined in various modes of shear flow in the range 0.15-100 s-1 at 268-323 K. During steady state flow, the appearance of a quasi Newtonian region was detected at shear rates between 20 and 40 s-1 owing to orientational ordering of macromolecules in the stream. Under the conditions of tran sient shear flow at a constant shear rate, rheopexy was observed in both cellulose solutions and cellulose-chi tosan solutions. The thixotropic behavior of cellulose-chitosan suspensions, spinning solutions, and gels was characterized during a sharp drop of shear rate from 0.15 to 10 s-1 , that is, under conditions modeling the processes of transport and extrusion of spinning solutions.

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A.N. Gonchar

Rheological properties of concentrated solutions of cellulose and its mixtures with other polymers in orthophosphoric acid

Exfoliation of Montmorillonite in polymer matrix and its influence on the nanocomposites properties

Modification of Montmorillonite for Obtaining Nanocomposites Based on Polar Polymers

Polyurethaneacrylate/montmorillonite nanocomposites

Rheological properties of cellulose-chitosan-phosphoric acid systems in different phase states

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