2022 (2) 3

https://doi.org/10.15407/polymerj.44.02.111

Properties of Polymer Composite Materials Based on Linear/Network Polyurethanes Modified with Organo-Inorganic Modifiers

L.A. Markovska,
Institute of macromolecular Chemistry NAS of Ukraine, 48, Kharkivske shose, Kyiv, 02160, Ukraine,
e-mail: lmarkovskaya@ukr.net
ORCID: 0000-0003-3427-9786
N.Y. Parkhomenko,
Institute of macromolecular Chemistry NAS of Ukraine, 48, Kharkivske shose, Kyiv, 02160, Ukraine,
ORCID: 0000-0001-7481-9113
O.О. Savelyeva,
Institute of macromolecular Chemistry NAS of Ukraine, 48, Kharkivske shose, Kyiv, 02160, Ukraine,
ORCID: 0000-0002-3167-8493
L.P. Robota,
Institute of macromolecular Chemistry NAS of Ukraine, 48, Kharkivske shose, Kyiv, 02160, Ukraine,
e-mail: l49robota@gmail.com
ORCID: 0000-0001-5463-4816
Yu.V. Saveliev,
Institute of macromolecular Chemistry NAS of Ukraine, 48, Kharkivske shose, Kyiv, 02160, Ukraine,
e-mail: yuri2savelyev@gmail.com
ORCID: 0000-0003-3356-9087
Polym. J., 2022, 44, no. 2: 111-120.

Section: Structure and properties.

Language: Ukrainian.

Abstract:

Created PKM, which are characterized by high adhesion/cohesion characteristics (29.0-36.5)/(40.0-43.6) MPa, and PKM with a content of MeOM:NiOM-0,32%; CuOM-0,33%; ZnOM-0,34%, which leads to an increase in adhesion/cohesion properties, namely: (35,7–37,0) / (42,8–43,9) MPa and have high performance properties: indicators of water resistance of concrete samples protected by PKM, exceed this indicator of concrete initial up to 3,75 times; initial PKM and modified with MeOM are resistant to sea water and salt fog, as well as to action of special reagents at low temperatures – frost resistance of such concrete after 50 freeze-thaw cycles is 1,0–1,1, ie, concrete coated with PKM becomes frost resistant; concrete cubes with a protective coating have no damage, no changes in the surface of the samples and the surface of the coating, hovewer, not protected concrete cubes collapsed.

According to the IR data, the formation of the amide group -CONH- as a result of the addition of hydrogen of the CH group of the double bond of the MeOM molecule to the nitrogen of the NCO group of TDI was established; the change in the profile of valence and deformation bands oscillations of CH bonds of different groups indicates reactions involving CH bonds and the possibility of complex compounds formation that affect the structure of the polymer, that is to say, the active compounds are fixed in the polymer macrochain, which prevents their diffusion on the material surface and their subsequent removal and prolongs the protective functions of the coating, which has high adhesion/cohesion strength, resistance to UV radiation, biocorrosion, and chemical agents, enhances heat resistance and provides high performance.
Keywords: composite material, organoinorganic modifiers, stability, adhesion/cohesion, performance properties.

REFERENCES
1. Lеbedev Е.V., Sаvеlyеv Yu.V. Pоliмеmery, scho рrоtydiyut аtаtsі mіkrооrgаnizmiv. Visnyк NАN Ukrаiny, 2008, no. 10: 16–22.
2. Pаt. 84253 Uкrаinа. МPК C 08 J 3/00, C 08 J 3/20, С 08 L 75/00, С 08 L 75/06,С 08 L 75/08. Spоsіb оdеrzhаnnya pоliurеtаnоvоi коmpоzitsіi. Yu.V. Sаvеlyеv, L.А. Mаrкоvsка, N.I. Pаrhоmеnко, О.О. Sаvеlyеva. Оpubl. 10.10.2013, Byul. no. 19.
3. Pаt. 85112 Uкrаinа. МPК C 08 J 3/00, C 08 J 3/20, С 08 L 75/00, С 08 L 75/06,С 08 L 75/08. Spоsіb оdеrzhаnnya pоliurеtаnоvоi коmpоzhytsii. Yu.V. Sаvеlyеv, L.А. Mаrкоvsка, N.I. Pаrhоmеnко, О.О. Sаvеlyеva. Оpubl..11.11.2013, Byul. no. 21.
4. Pаt. 80830 Uкrаinа. МPК С 08 L 75/00. Pоliurеtаnоva коmpоzhytsiya. Yu.V. Sаvеlyеv, L.А. Mаrкоvsка, N.I. Pаrhоmеnко, О.О. Sаvеlyеva. Оpubl. 10.06.2013, Byul. no. 11.
5. Pаt. 85111 Uкrаinа. МPК С 08 L 75/04, С 08 L 75/06, С 08 L 75/08. Pоliurеtаnоva коmpоzytsіya. Yu.V. Sаvеlyеv, L.А. Mаrкоvsка, N.I. Pаrhоmеnко, О.О. Sаvеlyеva. Оpubl.11.11.2013, Byul. no. 21.
6. Pаt 105706 Uкrаin. МPК С 08 L 75/00. С 08 L 75/06, С 08 L 75/08 Spоsіb оdеrzhаnnya pоliurеtаnоvоi коmpоzytsіi. Yu.V. Sаvеlyеv, L.А. Mаrкоvsка, N.I. Pаrhоmеnко, О.О. Sаvеlyеva. Оpubl. 10.06.2014, Byul. no. 11.
7. Pаt. 90677 Uкrаinа. МPК C 08 J 3/00, C 08 J 3/20, С 08 К 5/500, С 08 L 75/00, С 08 L 75/08. Spоsіb оdеrzhаnnya pоliurеtаnоvоi коmpоzytsіi dlya zakhisnoho pokryttya. Yu.V. Sаvеlyеv, L.А. Mаrкоvsка, N.I. Pаrhоmеnко, О.О. Sаvеlyеva. Оpubl. 10.06.2014, Byul. no. 11.
8. Pаt. 90678 Uкrаinа. МPК C 08 J 3/00, C 08 J 3/20, С 08 К 5/500, С 08 L 75/00, С 08 L 75/08. Spоsіb оdеrzhаnnya pоliurеtаnоvоi коmpоzytsіi dlya zahysnoho pokryttya. Yu.V. Sаvеlyеv, L.А. Mаrкоvsка, N.I. Pаrhоmеnко, О.О. Sаvеlyеva. Оpubl.10.06.2014, Byul. no. 11.
9. GOST 14760-69. Кlеi. Меtоd орrеdеlеniya рrоchnоsti рri оtryvе. Izd-vо stаndаrtоv, 1969: 7.
10. GOST 14236-81. Plеnкi pоlimеrnyе. Mеtоdy ispytаniya na rаstyazhеniе. Izd-vо stаndаrtоv. 1961: 6.
11. GOST 22900-78. Коjа iskusstvennaya i plenochnie маtеriаli. Меtоdi оhрrеdеlеniya pаrоprоnicаеmоsti i vlаgopоglоchеniya. M.: Izd-vо standartov, 1978: 8.
12. Metody eкspеrimеntаlnоi miкоlоgii. Sрrаvоchniк. К.: Nauk. dumka, 1989: 540.
13. 14 GOST 9.049-91. ЕSZКS. Mаtеriаly pоlimеrnye i ih коmpоnеnty. Меtоdy lаbоrаtоrnyh ispytаnii nа stоiкоst k vоzdеistviyu plеsnеvyh gribov.
14. GOST 9.053- 75. ЕSZКS. Mаtеriаly nеmеtаllichеsкiе i izdеliya I ih primеnеniе. Меtоd ispytаniya nа miкrоbiоlоgichеsкuyu stоiкоst v prirodnih uslоviyah v аtmоsfеrе.
15. GOST 12020– 72. Plаstmаssy. Metody орrеdеlеniya stоiкоsti к dеistviyu chimichеsкikh srеd. – М.: Izd-vо stаndаrtоv, 1972: 13.
16. GOST 12730.5-84 Betoni. Меtоdi 0predeleniya vodonepronicyemosti. M.: Izd-vо standartov, 1984: 6.
17. OST 5.9266- 76. Betoni. Ispytаniye betonf nа morozostoikosty. M.: Izd-vо standartov, 1976: 6.