Effect of strong constant magnetic field on the nanostructural organization and prop erties of the welded joints of hard-to-weld polymers (like polyethylene – polypropylene)
Keywords:
hard-to-weld joints, polyethylene, polypropylene, properties, PE-80, PP-80, structure.Abstract
Peculiarities of nanostructural organization, thermomechanical and performance characteristics of the welded joints of
hard-to-weld polymers (like polypropylene-polyethylene) formed under the effect of strong constant magnetic field (B ~1 Т), as
well as without such effect, were investigated by WAXS, SAXS, thermomechanical analysis and mechanical testing methods. It
was determined that strong constant magnetic field causes formation of the oriented structure of the welded joint, where the axle
of structurization coincides with the field axle. This effect reveals in improvement of the thermomechanical and the performance
characteristics of the welded joints. Basing on the mechanical tests results it was founded that tensile strength of PE-80/PP-80
joint welded under the effect of constant magnetic field (acting transversally to the welding axle) is 12 MPa, and of welded
without magnetic field effect is 6 MPa.
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References
materials and products, Schoolbook, UP «Tehnoprint»,
Minsk. [in Russian]
[2] Galchun, A, Korab, N, Kondratenko, V,
Demchenko, V, Shadrin, A, Anistratenko, V & Iurzhenko, M
2015, ‘Structural features and thermal characteristics of
welded joints of technical polyethylenes’, Polymer Journal,
no. 37, pp. 242–248. [in Ukrainian]
[3] Alpern, VD 2002, ‘What shoud be known about the
pipes’ polyethylene’, Engineering networks made of polymeric
materials, no. 2, pp. 5–9. [in Russian]
[4] Ryzhov, V, Kalugina, Ye, Biserova, N &
Kazakov, Yu 2011, ‘Polyethylene of pipe types. Structure and
properties’, Polymeric pipes, no. 34, pp. 56–60. [in Russian]
[5] Gorilovskiy, M & Gvozdev, I 2008, ‘Pipe type of
polyethylene PE 100 Main technical requirements and their
development’, Polymeric pipes, no. 22, pp. 47–50. [in Russian]
[6] ‘Pipe polyethylene import to Ukraine market’:
review 2013 – Ukraine, Polymeric pipes, no. 29, pp. 18–22.
[in Russian]
[7] Volchenko, VN 1991, Welding and weldable
materials, Metallurgy, Moscow. [in Russian]
[8] Demchenko, V, Iurzhenko, M, Shadrin, A &
Galchun, A 2017, ‘Relaxation behavior of polyethylene
welded joints’, Nanoscale Research Letters, no. 12, pp. 280–
285.
[9] Galchun, A, Korab, N, Kondratenko, V,
Demchenko, V, Shadrin, A, Anistratenko, V & Iurzhenko, M
2015, ‘Nanostructurization and thermal properties of
polyethylenes’ welds’, Nanoscale Research Letters, no. 10,
pp. 138–149.
[10] Demchenko, V & Iurzhenko, M 2017, ‘Structure
and properties of the welded joints of single-type
polyethylenes formed under the action of constant magnetic
fields’, Materials science, no. 53, pp. 186–193.
[11] Kostyanyuk, VM, Tantsyura, TP, Khomik, OA &
Patey, LM 2003, ‘Thermomagnetic modification of
microheterogenic structure of linear polyethylene’, Bulletin of
the University of Kyiv. Physics And Mathematics Sciences,
no. 2. pp. 352–357. [in Ukrainian]
[12] Belyi, VA, Snezhkov, VV, Batayev, YuV et al.
1986, ‘Electric polarization of polyethylene in the permanent
magnetic field. Reports of USSR Academy of ciences’,
Plastics, no. 290, pp. 373–375. [in Russian]
[13] Belyi, VA, Snezhkov, YuV, Bezrukov, SV, et al.
1988, ‘Regarding structural ordering of the polyethylene melts
in the magnetic field. Reports of USSR Academy of Sciences’,
Plastics, no. 302, pp. 355–357. [in Russian]
[14] Demchenko, V, Riabov, S, Rybalchenko, N,
Goncharenko, L, Kobylinskyi, S & Shtompel’, V 2017, ‘X-ray
study of structural formation, thermomechanical and
antimicrobial properties of copper-containing polymer
nanocomposites obtained by the thermal reduction method’,
European Polymer Journal, no. 96, pp. 326–336.
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