Top

Polymer Science, Series D

Published in:

01-10-2021

Chemically Modified Polysulfones and Their Properties

Authors: I. P. Storozhuk, V. M. Alekseev, A. N. Kalinnikov, A. S. Borodulin

Published in: Polymer Science, Series D | Issue 4/2021

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

A review of works, including papers by the authors, dedicated to aromatic polysulfones that have been chemically modified by the main macrochain is presented. Methods of synthesizing copolymers and block copolymers with increased thermal stability via using new initial compounds are described. The potential of application of the modified polysulfones to create thermostable filled composite materials is demonstrated.

previous article Synthesis and Antibacterial Activity of Cellulose Modified with Ciprofloxacin Fragments

next article Investigation of the Rheokinetics of Curing and Properties of an Epoxyurethane Thermal-Protective Coating

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

A. G. Farnham, and R. N. Johnson, US Patent No. 295519 (1963).

R. N. Johnson, A. G. Farnham, R. A. Clendinning, et al., “Poly(aril ethers) by nucleophilic aromatic substitution. I. Synthesis and properties,” J. Polym. Sci., Part A 5, 2375–2393 (1967).

H. Lee, D. Stoffey, and K. Neville, New Linear Polymers (McGraw-Hill, New York, 1967; Khimiya, Moscow, 1972).

L. M. Robeson, A. G. Farnham, and J. E. McGrath, “Synthesis and properties of some aromatic polysulfones,” Polym. Prepr. Am. Chem. Soc. Div. Polym. Chem. 16 (1), 476 (1975).

F. X. O’Shea, US Patent No. 3939119 (1976).

L. M. Bolotina and V. P. Chebotarev, “Development of research in the field of chemistry and technology of aromatic polysulfones,” Plast. Massy, No. 11, 3–7 (2003).

S. V. Vinogradova, V. V. Korshak, S. N. Salazkin, and A. A. Kul’kov, “Aromatic polyethers of the card type,” Vysokomol. Soedin., Ser. A 14 (12), 2545–2552 (1972).

V. V. Korshak, I. P. Storozhuk, and A. K. Mikitaev, “Polysulfones—sulfonyl-containing polymers,” in Polycondensation Processes and Polymers (Nalchik, 1976), pp. 40–78.

I. P. Storozhuk, A. K. Mikitaev, and V. V. Korshak, “Patterns of the formation of S _N-polyarylene sulfone oxides,” in Polycondensation Processes and Polymers (Nalchik, 1976), pp. 79–139.

10.

I. P. Storozhuk and P. M. Valetskii, “Patterns of formation and properties of polyarylene sulfonoxides,” in Results of Science and Technology. Chemistry and Technology of Macromolecular Compounds (VINITI, Moscow, 1978), Vol. 12, pp. 127–176.

11.

P. M. Valetskii and I. P. Storozhuk, “Block copolymers of the polycondensation type,” Russ. Chem. Rev. 48, 42–61 (1979).CrossRef

12.

I. P. Storozhuk, P. M. Valetskii, S. V. Vinogradova, and V. V. Korshak, “Polycondensation pathways for the synthesis of block copolymers,” in Synthesis and Properties of Block Copolymers (Kiev, 1983), pp. 18–53.

13.

Z. S. Khasbulatova, “Aromatic polysulfones,” Plast. Massy, No. 4, 20–23 (2008).

14.

L. A. Asueva, M. A. Nasurova, Z. S. Khasbulatova, and G. B. Shustov, “Deformation and strength properties of polyethersulfones,” Plast. Massy, No. 4, 18–20 (2012).

15.

Zh. I. Kurdanova, K. T. Shakhmurzova, A. A. Zhansitov, A. E. Baikaziev, A. L. Slonov, S. Yu. Khashirova, M. Kh. Ligidov, and A. K. Mikitaev, “Investigation of the synthesis and properties of copoly-sulfones with carded fragments,” Plast. Massy, Nos. 7–8, 23–26 (2017).

16.

I. P. Storozhuk, V. M. Alekseev, N. G. Pavlukovich, A. S. Borodulin, A. N. Kalinnikov, and A. V. Polezhaev, “Thermoplastic poly ether sulfones for composite materials,” IOP Conf. Ser., Mater. Sci. Eng. 934, 012038 (2020).

17.

V. A. Nelyub, A. S. Borodulin, A. N. Kalinnikov, et al., RU Patent No. 2653058 (2017).

18.

A. S. Borodulin, A. N. Kalinnikov, et al., RU Patent No. 2683268 (2019).

19.

A. S. Borodulin, A. N. Kalinnikov, R. C. Bazheva, et al., “Synthesis and properties of aromatic polyethersulfones,” Int. J. Mech. Eng. Technol. 9 (13), 1109–1116 (2018).

20.

A. S. Borodulin, A. N. Kalinnikov, A. M. Kharaev, et al., “New polymeric binders for the production of composites,” Mater. Today: Proc. 11 (P1), 3107–3111 2019.

21.

V. A. Nelyub, A. S. Borodulin, et al., “Polyethersulfones with improved thermophysical properties,” Polym. Sci., Ser. D 12, 24–28 (2019). https://doi.org/10.1134/S1995421219010076CrossRef

22.

V. D. Al’pern and Z. G. Kagramanov, “Sulfone polymers from SOLVAY. Properties and application,” Plast. Massy, No. 11, 3–6 (2006).

23.

L. B. Sokolov, Fundamentals of Polymer Synthesis by Polycondensation Method (Khimiya, Moscow, 1979) [in Russian].

24.

K.-U. Buhler, Spezialplaste (Berlin, 1978; Khimiya, Moscow, 1984).

25.

S. V. Vinogradova and V. A. Vasnev, Polycondensation Processes and Polymers (Nauka, Moscow, 2000) [in Russian].

26.

V. V. Korshak, S. N. Salazkin, L. A. Beridze, and S. V. Vinogradova, “Investigation of the effect of the chemical structure and ordering of the structure of polyarylates on their properties,” Vysokomol. Soedin., Ser. A 15 (4), 841–851 (1973).

27.

S. V. Vinogradova, V. A. Vasnev, and Ya. S. Vygodskii, “Cardiac polyheteroarylenes. Synthesis, properties, and originality,” Usp. Khim. 65 (3), 266–295 (1996).CrossRef

28.

G. N. Petrova, E. Ya. Beider, V. P. Chebotarev, S. S. Lovkov, and V. I. Sazikov, “Regulation of the properties of polysulfone due to modification,” Plast. Massy, No. 12, 23–27 (2010).

29.

J. L. Hedrick, D. K. Mohanty, B. C. Johnson, R. Viswanathan, J. A. Hinkley, and J. E. McGrath, “Radiation resistant amorphous–all aromatic polyarylene ether sulfones: Synthesis, characterization, and mechanical properties,” J. Polym. Sci.: Polym. Chem. Ed. 23, 287–300 (1986).CrossRef

30.

Yu. A. Gorbatkina, V. G. Ivanova-Mumzhieva, S. S. Lovkov, Ya. G. Urman, and V. P. Chebotarev, “Synthesis and properties of poly(arylene ether sulfone-stat-arylene sulfide-sulfone) copolymers,” Plast. Massy, No. 6, 18–23 (2009).

31.

Yu. E. Doroshenko, S. S. Lovkov, and V. P. Chebotarev, “Synthesis and properties of poly(arylene ether sulfone-stat-arylene sulfide-sulfone) copolymers,” Plast. Massy., No. 1, 35–39 (2011).

32.

S. E. Smirnov, I. A. Putsylov, S. S. Smirnov, S. S. Lovkov, and V. P. Chebotarev, “Application of polysulfone in lithium current sources,” Plast. Massy, No. 5, 35–39 (2009).

33.

G. T. Kwiatkowski, I. Colon, M. J. El-Hibri, and M. Matzner, Makromol. Chem., Macromol. Symp. 54–55, 199–224 (1992).

34.

S. A. Weinberg and J. El-Hibri, “Polyarylethersulfones (PAES),” in Engineering Plastics Handbook, (McGraw-Hill, Blacklick, Oh, 2005), pp. 289–326.

35.

I. P. Storozhuk, L. B. Shirokova, P. M. Valetskii, L. Z. Rogovina, and G. G. Nikiforova, “Investigation of the properties of poly(arylate-arylene sulfone oxide) block copolymers,” Vysokomol. Soedin, Ser. A 21 (1), 152–160 (1979).

36.

V. S. Voishchev, V. A. Beloglazov, I. P. Storozhuk, V. V. Mordvinov, and P. M. Valetskii, “Electrophysical properties of poly(arylate-arylene sulfone oxide) block copolymers,” Vysokomol. Soedin., Ser. A 21 (10), 2197–2206 (1979).

37.

L. V. Dubrovina, M. A. Ponomareva, L. B. Shirokova, I. P. Storozhuk, and P. M. Valetskii, “Investigation of the influence of the method of synthesis of poly(arylate-arylene sulfone oxide) block copolymers on some of their properties,” Vysokomol. Soedin., Ser. B 23 (5), 384–388 (1981).

38.

V. M. Krasikova, S. B. Dolgoplosk, E. Yu. Shvarts, I. P. Storozhuk, and I. S. Ivanova, “Spectrophotometric determination of phenolic groups in low molecular weight aromatic polyesters by reaction with titanium tetrachloride,” Zh. Anal. Khim. 32 (7), 1425–1430 (1977).

39.

L. B. Shirokova, I. P. Storozhuk, V. S. Voishchev, V. A. Beloglazov, and V. S. Eremin, “Properties of irregular poly(arylate-arylene sulfone oxides) based on oligoarylene sulfone oxides with different degrees of polymerization,” Vysokomol. Soedin., Ser. A 24 (9), 1974–1980 (1982).

40.

V. S. Voishchev, I. P. Storozhuk, V. A. Beloglazov, V. S. Eremin, P. M. Valetskii, S. V. Vinogradova, and V. V. Korshak, “Transitions and relaxation phenomena in polyarylate-polyarylene sulfone oxide block copolymers,” Vysokomol. Soedin., Ser. A 26 (1), 124–128 (1984).

41.

V. S. Voishchev, V. P. D’yachkova, V. S. Eremin, P. M. Valetskii, I. P. Storozhuk, and V. V. Korshak, “Temperature transitions in polyarylate-polyarylene sulfone oxide block copolymers consisting of high molecular weight blocks,” Vysokomol. Soedin., Ser. B 27 (7), 506–510 (1985).

42.

V. V. Korshak, P. M. Valetskii, and I. P. Storozhuk, “Synthesis and properties of block copolymers of polycondensation type,” Makromol. Chem. 6, 55–75 (1984).CrossRef

Title: Chemically Modified Polysulfones and Their Properties
Authors: I. P. Storozhuk
V. M. Alekseev
A. N. Kalinnikov
A. S. Borodulin
Publication date: 01-10-2021
Publisher: Pleiades Publishing
Published in: Polymer Science, Series D / Issue 4/2021
Print ISSN: 1995-4212
Electronic ISSN: 1995-4220
DOI: https://doi.org/10.1134/S1995421221040249

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 4/2021

Carbon Plastic Binders Based on Epoxy Oligomers Modified by Thermoplast

Polymer Composite Materials and Gels with Arabinogalactan

Rubber and Rubber–Polymer Modifiers of Asphalt Concrete Mixes Prepared by High-Temperature Shear Grinding. Part 2. Methodology of Evaluation of Performance of Modifiers

Prospects for the Use of Impregnation Compounds for Maintenance of Suspension Elements of Road Vehicles under Different Temperature Conditions

Binders Based on Mixtures of Epoxy Polymers and Thermoelastoplasts. Part 1. Relaxation Properties of Epoxy Polymers Modified by Polybutadieneterephtalate–Polytetramethyleneoxide Block Copolymers

A Study of Elastomeric Fire- and Heat-Resistant Materials Containing Functionally Active Structures

Premium Partners