С. М. Бутрим scite author profile

547.458.61:661.185.232 N. S. Butrim, and T. L. YurkshtovichThe reaction kinetics of an aqueous suspension of potato starch, various amounts of NaOH, and cationic 3-chloro-2-hydroxypropyltrimethylammonium (chloride) were studied in detail. It was found that the compositions of the sparsely substituted cationic starch ethers and the efficiency of the reaction depended strongly on the ratio of components in the alkylating mixture. The physicochemical properties of the synthesized samples were studied using chemical analysis, scanning electron microscopy, x-ray structure analysis, and thermogravimetry. It was shown that the temperature regime of the reaction had a determining influence on the thermal stability and structural changes of the cationic starch derivative.Starch derivatives containing cationic groups are important commercial products that are widely used as effective additives in the cellulose and paper, textile, cosmetic, and other branches of industry. Cationic starches with quaternary ammonium ethers have the broadest application [1] and have been used effectively over the last decades in the production of paper and cardboard to increase the retention of fiber and filler, suppress the disintegration process, and increase the surface strength and rupture strength of paper [2]. Such cationic starches can be prepared by various methods (dry, wet, extrusion) by adding to the starch macromolecule functional groups carrying a positive charge [3][4][5][6]. Of the large number of available reagents, 3-chloro-2-hydroxypropyltrimethylammonium chloride (CHPTMAC) is used most often.Cationic ethers are obtained via reaction of native starch with CHPTMAC under various conditions according to the general Scheme 1.

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Preparation and flocculating properties of highly substituted cationic starches of different vegetable origins

Бутрим

Bil’dyukevich

Butrim

et al. 2016

Colloid J

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Obtaining New Flocculants Based on High-Substituted Cationic Starches

Бутрим¹,

́dyukevich²,

Butrim³

et al. 2017

IVUZKKT

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In this work synthesis of the high-substituted cationic starches by reaction of starches of different botanical origin with 3-chloro-2-hydroxypropyltrimetylammonium chloride in the presence of the alkaline catalyst was carried out by semi-dry way. The assessment of their flocculating properties on the model systems of kaolinic dispersions was carried out. It was established that the efficiency of a starch cationization substantially depends on its nature. This is due to various initial supermlecular structure and morphology of starch granules. The largest rate and degree of a cationization was characteristic for potato starch, and the least – for corn. The offered heterogeneous method of synthesis allows to receive the high-substituted cationic starches with preservation their granular and minimum changes in supramolecular structure. At achievement of particular extent of high-substituted (DScat> 0.1) cationic starches form the transparent colloid dispersions in cold water. Cationization of starches to higher DScat. demands increase in a consumption of cationic reagent and the catalyst. Formation of cationic bonds in starch was confirmed with results of element and IR-spectroscopical analyses. When carrying out a cationization of starch in an alkaline condition there can be changes of the supramolecular structure of a polysaccharide depending on a temperature and type of starch. Unessential decrease in a degree of crystallinity of all types of starches after their cationization at ambient temperature was demonstrated by the diffractograms received in work. Despite slight amorphicity of starch after their cationization it should be noted that all cationic starches having DScat> 0.1, easily disperse in cold water with formation of the homogeneous transparent pastes. The kinetics and efficiency of a flocculation of model kaolinic suspensions with synthesized cationic starches was investigated. Kaolinic suspensions for lack of flocculant are rather stable for a long time. Introduction to the system of cationic starch leads to fast destabilization of kaolinic dispersions. At the same time for all cationic starches with increase in a dose in the range of 0.5 – 7.5 mg/g(kaolin) the flocculation rate of particles of kaolin dispersions increases. The most efficiently a flocculation of dispersions of kaolin happens to the largest rate in the presence of cationic potato starch. It was established that the efficiency of a flocculation of mineral kaolinic systems is defined not only by a molecular mass of polymer, but also the sizes of non-draining chains which in the strong degree depend on a charge of microions and a rigidity of a polymeric chain. It was shown that the synthesized flocculants are not inferior in efficiency to the polyacrylamide derivants which are applied now.Forcitation:Butrim S.M., Bildyukevich T.D., Butrim N.S., Yurkshtovich T.L., Kaputskiy F.N. Obtaining new flocculants based on high-substituted cationic starches. Izv. Vyssh. Uchebn. Zaved. Khim. Khim. Tekhnol. 2018. V. 61. N 1. P. 89-95

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