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A significant disadvantage of parts made of linear block polyurethanes under conditions of friction contact in the presence of an aqueous medium is the intensification of hydrolysis processes and decrease in volume strength. It was proposed to slow down the hydrolysis of polyurethanes in three ways: by directed changes in chemical structure, by electromagnetic radiation of different intensities and by creation of composite materials, based on the principle of additional intermolecular crosslinking at the manufacturing and hot processing stages. The conditions for the formation of a smooth wear-resistant surface that protects the material from rapid destruction are revealed.
Wydawca
Czasopismo
Rocznik
Tom
Strony
287--293
Opis fizyczny
Bibliogr. 36 poz., rys., tab.
Twórcy
autor
- Technical University of Kosice Faculty of Manufacturing Technologies Sturova 31, 08001 Presov, Slovakia
autor
- Ukrainian State Chemical Technology University 8 Gagarina Ave., 49005 Dnipropetrovsk, Ukraine
autor
- Ukrainian State Chemical Technology University 8 Gagarina Ave., 49005 Dnipropetrovsk, Ukraine
autor
- Sumy State University, Faculty of Technical Systems and Energy Efficient Technologies Department of Applied Materials Science and Technology of Constructional Materials 2 Rymskogo-Korsakova st., 40007 Sumy, Ukraine
Bibliografia
- [1] S.W. Wang, R.H. Colby. ″Linear viscoelasticity and cation conduction in polyurethane sulfonate ionomers with ion in the soft segment-single phase systems″. Macromolecules, 51, pp. 2757-2766, 2018.
- [2] A. Panda, K. Dyadyura, P. Savchuk, V. Kashytskyi, V. Malets, J. Valicek, M. Harnicarova, I. Pandova, L. Androvic, M. Kusnerova. ″The results of theoretical and experimental studies of tribotechnical purposes composites on the basis of epoxy composite material″. MM Science Journal, vol. 10, pp. 3509-3518, 2019.
- [3] A. Panda, K. Dyadyura, M. Harnicarova, J. Valicek, I. Pandova, Z. Palkova. ″The conditions for obtaining self-organized structures on the tribological surfaces of composite materials based on polytetrafluoroethylene which is used in automotive and other demanding technologies″. MM Science Journal, vol. 10, no.4, pp. 3500-3508, 2019.
- [4] X. Zhou, C. Fang, J. Chen, S. Li, Y. Li, W. Lei. ″Correlation of raw materials and waterborne polyurethane properties by sequence similarity analysis″. J Mater Sci Technol, 32 pp. 687-694, 2016.
- [5] P.W. Raut, A.A. Shitole, A. Khandwekar, N. Sharma. ″Engineering biomimetic polyurethane using polyethylene glycol and gelatin for blood-contacting applications″. J Mater Sci, 54, pp. 10457-10472, 2019.
- [6] Z. Zhao, Q. Guo Junzhi Qian, G. Pan ″Mechanical Properties and Tribological Behaviour of Polyurethane Elastomer Reinforced with CaCO3 Nanoparticles″. Polymers&Polymer Composites, v. 20, no. 7, pp. 575-580, 2012.
- [7] T. Gurunathan, C.R.K. Rao, R. Narayan, K.V.S.N. Raju. ″Synthesis, characterization and corrosion evaluation on new cationomeric polyurethane water dispersions and their polyaniline composites″. Prog Org Coat, 76, pp. 639-647, 2013.
- [8] Ju.V. Skakun, Ju.M. Nіzel's'kij ″Termoplastichnі polіuretani: budova, vlastivostі, vikoristannja″. Polіmernij zhurnal, vol. 29, no. 1, pp. 3-9, 2007.
- [9] B. Król, K. Pielichowska, P. Król, M. Kędzierski. ″Polyurethane cationomer films as ecological membranes for building industry″. Prog Org Coat, 130, pp. 83-92, 2019.
- [10] K. Chen, R. Liu, C. Zou, Q. Shao, Y. Lan, X. Cai, L. Zhai. ″Linear polyurethane ionomers as solid-solid phase change materials for thermal energy storage″. Sol Energy Mater Sol Cells, 130, pp. 466-473, 2014.
- [11] V.M. Anisimov, A. Panda, V.V. Anisimov, K. Dyadyra, I. Pandova. ″About wear resistance of linear block-polyurethanes″. MM Science Journal, 2020 (November), pp. 4068- 4073, 2020.
- [12] V.N. Anisimov, V.V. Anisimov. ″Technological features of processing linear Block-polyurethanes of different morphology″. Voprosy khimiї i khimicheskoї teknologiї. vol. 4, рр. 5-11, 2019.
- [13] H. Li, C. Liu, X. Zhang, et al. ″Catalyst-free synthesis of isocyanate-blocked imidazole and its use as high-performance latent hardener for epoxy resin″. J Mater Sci., 56, pp. 936-956, 2021.
- [14] N.L. Tai, R. Adhikari, R. Shanks, P. Hakkey, B. Adhikari. ″Flexible starch-polyurethane films: effect mixed macrodiol polyurethane ionomers on physicochemical characteristics and hydrophobicity″. Carbohydr Polym, 197, pp. 312-335, 2018.
- [15] P. Król, B. Król. ″Structures, properties and applications of the polyurethane ionomers″. J Mater Sci, 55, pp. 73-87, 2020.
- [16] A. Panda, Š. Olejárová, J. Valíček and M. Harničárová. " Monitoring of the condition of turning machine bearing housing through vibrations". International Journal of Advanced Manufacturing Technology, vol. 97, no. 1-4, pp. 401-411, 2018.
- [17] A. Panda, J. Dobránsky, M. Jančík, I. Pandová and M. Kačalová. "Advantages and effectiveness of the powder metallurgy in manufacturing technologies". Metalurgija, vol. 57, no. 4, pp. 353-356, 2018.
- [18] J. Valicek, M. Harnicarova, I. Hlavaty, R. Grznárik, M. Kusnerova, Z. Mitaľová and A. Panda. "A new approach for the determination of technological parameters for hydroabrasive cutting of materials". Materialwissenschaft und Werkstofftechnik, vol. 47, pp. 462-471, 2016.
- [19] A. Panda, V. Nahornyi, I. Pandová, M. Harničárová, M. Kušnerová, J. Valíček and J. Kmec. "Development of the method for predicting the resource of mechanical systems". International Journal of Advanced Manufacturing Technology, vol. 105, no. 1-4, pp. 1563-1571, 2019.
- [20] J. Macala, I. Pandova and A. Panda. "Zeolite as a prospective material for the purification of automobile exhaust gases". Mineral resources management, vol. 33, no. 1, pp. 125-138. 2017.
- [21] J. Valicek, M. Harnicarova, I. Kopal, Z. Palková, M. Kušnerová, A. Panda and V. Šepelák. "Identification of Upper and Lower Level Yield strength in Materials". Materials, vol. 10, no. 9, pp. 1-20, 2017.
- [22] K. Sentyakov, et al. “Modeling of Boring Mandrel Working Process with Vibration Damper”. Materials, vol. 13, no. 8, art. no. 1931, 2020.
- [23] A. Panda and J. Duplak. "Comparison of theory and practice in analytical expression of cutting tools durability for potential use at manufacturing of bearings". Applied Mechanics and Materials, vol. 616, pp. 300-307, 2014.
- [24] I. Pandova, A. Panda, J. Valicek, M. Harnicarova, M. Kušnerová and Z. Palková. "Use of sorption of copper cations by clinoptilolite for wastewater treatment". International Journal of Environmental Research and Public Health, vol. 15, no. 7, pp. 1-12. 2018.
- [25] I. Pandova, T. Gondova and K. Dubayova. "Natural and Modified Clinoptilolite Testing for Reduction of Harmful Substance in Manufacturing Exploitation". Advanced Materials Research, vols. 518-523, pp. 1757-1760, 2012.
- [26] J. Macala, I. Pandova, T. Gondova and K. Dubayova. "Reduction of polycyclic aromatic hydrocarbons and nitrogen monooxide in combustion engine exhaust gases by clinoptilolite". Gospodarka Surowcami Mineralnymi, vol. 28, no. 2, pp. 113-123. 2012.
- [27] M. Balara, D. Duplakova and D. Matiskova. "Application of a signal averaging device in robotics 2018". Measurement. vol. 115, pp. 125-132, 2018.
- [28] M. Durdan, B. Stehlikova, M. Pastor, J. Kacur, M. Laciak and P. Flegner. "Research of annealing process in laboratory conditions". Measurement, vol. 73, 2015, pp. 607-618. ISSN 0263-2241.
- [29] K. Monkova and P. Monka. "Some aspects influencing production of porous structures with complex shapes of cells". Lecture Notes in Mechanical Engineering, pp. 267- 276, 2017.
- [30] L. Sukhodub, A. Panda, L. Sukhodub, M. Kumeda, K. Dyadyura and I. Pandová. "Hydroxyapatite and zinc oxide based two-layer coating, deposited on ti6al4v substrate", MM Science Journal, pp. 3494-3499, (2019).
- [31] A. Panda, K. Dyadyura, J. Valicek, M. Harnicarova, J. Zajac, V. Modrak, I. Pandova, P. Vrabel, E. Novakova-Marcincinova and Z. Pavelek. "Manufacturing Technology of Composite Materials-Principles of Modification of Polymer Composite Materials Technology Based on Polytetrafluoroethylene". Materials, vol. 10, no. 4, pp. 337, 2017.
- [32] J. Dobránsky, M. Pollák and Z. Doboš. "Assessment of production process capability in the serial production of components for the automotive industry". Management Systems in Production Engineering, vol. 27, no. 4, pp. 255-258, 2019.
- [33] M. Pollák, J. Torok, J. Zajac, M. Kočiško and M. Teliskova. "The structural design of 3D print head and execution of printing via the robotic arm ABB IRB 140". ICIEA 2018, vol. 2018, pp. 194-198, 2018.
- [34] W. Bialy and J. Ružbarský. "Breakdown cause and effect analysis. Case study". Management Systems in Production Engineering, vol. 26, pp. 83-87, 2018.
- [35] D. Duplakova, L. Knapcikova, M. Hatala and E. Szilagyi. "Mathematical modelling of temperature characteristics of RFID tags with their subsequent application in engineering production". TEM Journal-Technology Education Management Informatics, vol. 5, pp. 411-416, 2016.
- [36] Ľ. Straka, I. Čorný and J. Piteľ. "Properties evaluation of thin microhardened surface layer of tool steel after wire EDM". Metals, vol. 6, no. 5, pp. 1-16, 2016.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c493dfa1-ff35-4023-8eb9-0a5f5dc83531