T. M. Naibova scite author profile

It has been shown that the chlorine-containing unconjugated enyne alcohols react with epichlorohydrin in the presence of boron trifluoride etherate with formation of chlorohydrines, which further without their isolation, under the action of potassium hydrochloride are dehydrochlorinated with formation of the corresponding glycidyl ethers. Under the action of an alcoholic solution of potassium hydroxide at temperature of 75-80 °С on synthesized chlorine-containing ethers the dehydrochlorination reaction on double С=С bond proceeds and glycidyl ethers of 1,4-diine series are formed. It has been revealed that the synthesized glycidyl ethers are the very reactive compounds. In patricular, it has been shown that the ethers of 1,4-diine series with the participation of oxirane ring undergo the reaction with thiurea medium of methanol at 30-35 °С, forming the corresponding tyrants. The data of IR- and NMR-spectra of the prepared compounds have been presented and their modifying properties in relation to phenol-formaldehyde oligomers in acidic and alkaline media have been revealed. The prepared modified oligomers are the products of liquid-viscous consistency, soluble in acetone, tetrahydrofuran, dimethyl formamide and dioxane. It has been proved by the carried out analyses that the prepared PhFOs, modified by glycidyl and thiglycidyl ethers of diacetylene series are not mechanical mixtures of phenol, formaldehyde and modifier. On the basis of obtained results the formation mechanism of modified resol and novolac PhFO has been also revealed. It has been established that the physical-chemical and physical-mechanical parameters of the prepared phenol-formaldehyde oligomers modified by modifiers proposed by us, in comparison with unmodified ones, are improved. From the proposed diglycidyl and thiodiglycidyl ethers for the modification of PhFO the best results on all parameters are achieved at modification with thioglycidyl ether of diacetylene series.

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Optimization of the process of obtaining an ion exchanger based on a carbamide-phenol-formaldehyde oligomer

Naibova

Yusubov

Amirov

et al. 2022

Plastičeskie massy

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To obtain an ion exchange compound for process water treatment, a relatively environmentally friendly oligomer was sulfonated by adding a sulfogroup to the benzenering in the oligomer. The dynamic change capacity of the obtained ion exchanger was 0.74–0.98 mg-eq/g, the static change capacity was 1.25–3.22 mg-eq/g, the volume density was in the range of 1189–1206 kg/m3. The study of the optimal parameters of the process of obtaining an ion exchanger (sulfocationite) based on a carbamide-phenol-formaldehyde oligomer was carried out by planning a multifactorial experiment. The optimal value of the output parameter is 78,13 %.

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The Composite Based on Modified Epoxy Oligomer.

Ramazanova¹,

Naibova²,

Mammadova³

et al. 2021

Theoretical & Applied Science

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T. M. Naibova

Modification of Phenol–Formaldehyde Oligomers with Propargyl Ethers

Modification of Phenol–Formaldehyde Oligomers with Unsaturated Aliphatic Epoxy Compounds

Synthesis of Glycidyl and Thioglycidyl Ethers of Diacetylene Series and Their Use as a Modifier of Phenol-Formaldehyde Oligomers

Optimization of the process of obtaining an ion exchanger based on a carbamide-phenol-formaldehyde oligomer

The Composite Based on Modified Epoxy Oligomer.

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