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Research of microstructure of molybden doped weldings of oil and gas pipelines

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Still existing scientific, technical and technological developments to improve the quality of welded joints of metal pipe structures contain contradictions and uncertainty about the effects of alloying elements, such as molybdenum, mechanical and visco-plastic properties, as well as metallographic component joints. All this indicates the need for a systematic study of these problems for the development of rational metallurgical and technological measures to significantly improve the technological and corrosion-mechanical properties of weld metal. Metallographic studies, using laboratory equipment with high identifying ability, found that the doping of weld metal with molybdenum in the amount of 0.2-0.4% causes fragmentation of ferrite-pearlite structure, including carbides Mn and Fe, and also reduces the number and size of non-metallic inclusions – sulfides, oxides and silicates. Moreover, non-metallic inclusions have a dispersed appearance, which promotes plasticization of the structure, which directly increases the viscous-plastic characteristics and resistance of the metal joints to crack formation. Based on the results of metallographic research, the optimum content in the weld metal of the alloyed element – molybdenum, which is 0.2-0.4%, is determined.
Wydawca
Rocznik
Tom
Strony
274--279
Opis fizyczny
Bibliogr. 31 poz., rys.
Twórcy
  • Technical University of Kosice Faculty of Manufacturing Technologies Sturova 31, 08001 Presov, Slovakia
  • Technical University of Kosice Faculty of Manufacturing Technologies Sturova 31, 08001 Presov, Slovakia
  • Poltava National Technical Yuri Kondratyuk University 24 Pershotravnevyi Ave, 36000 Poltava, Ukraine
  • Poltava National Technical Yuri Kondratyuk University 24 Pershotravnevyi Ave, 36000 Poltava, Ukraine
  • Poltava National Technical Yuri Kondratyuk University 24 Pershotravnevyi Ave, 36000 Poltava, Ukraine
  • Polish Academy of Sciences Stary Rynek 78 Palac Dzialynskich, 61-722, Poznan, Poland
  • Sumy State University Faculty of Electronics and Information Technologies 2, Rymskogo-Korsakova st., 40007 Sumy, Ukraine
Bibliografia
  • [1] V.D. Makarenko, T.P. Fedorina, O.V. Bezpala, S.Yu. Maksimov. "The influence of the pipelines operation term in aggressive environments on the gas content and structure of structural steels". Solid State Phenomena, vol. 313, pp. 136-142, 2021.
  • [2] V. Makarenko, A. Manhura, I. Makarenko. "Calculation Method of Safe Operation Resource Evaluation of Metal Constructions for Oil and Gas Purpose". Lecture Notes in Civil Engineering, vol. 73, pp. 641-649, 2020.
  • [3] V. Makarenko, Y. Vynnykov, A. Manhura. "Investigation of the Mechanical Properties of Pipes for Long-Term Cooling Systems". Lecture Notes in Civil Engineering, vol. 73, pp. 151-16, 2020.
  • [4] V. Makarenko, Y. Vynnykov, A. Liashenko, O. Petrash. "Hydrate Formations Modeling for the Oil and Gas Facilities Reconstruction". Lecture Notes in Civil Engineering, vol.73, pp. 651-658, 2020.
  • [5] A. Panda, Š. Olejárová, J. Valíček, M. Harničárová. "Monitoring of the condition of turning machine bearing housing through vibrations". The International Journal of Advanced Manufacturing Technology. vol. 97, no. 1-4, pp. 401-411, 2018.
  • [6] A. Panda, J. Dobránsky, M. Jančík, I. Pandova, M. Kačalová. "Advantages and effectiveness of the powder metallurgy in manufacturing technologies". Metalurgija, vol. 57, no. 4, pp. 353-356, 2018.
  • [7] A.D. Mikhalev, K. A. Dyadyura, I. Lebedinskyi, S.N. Bratushka, Y.O. Kravchenko. "Structure, morphology, and elemental-phase composition of j02002 steel as a result of electrolytic-plasma processing". High Temperature Material Processes, 23(1), pp. 25-36, 2019.
  • [8] J. Valíček, M. Harničárová, I. Hlavatý, R. Grznárik, M. Kušnerová, Z. Hutyrová, A. Panda. "A new approach for the determination of technological parameters for hydroabrasive cutting of materials". Materialwissenschaft und Werkstofftechnik, vol. 47, no. 5-6, pp. 462-471, 2016.
  • [9] A. Panda, V. Nahornyi, I. Pandová, M. Harničárová, M. Kušnerová, J. Valíček, J. Kmec. "Development of the method for predicting the resource of mechanical systems". The International Journal of Advanced Manufacturing Technology, vol. 105, pp. 1563-1571, 2019.
  • [10] J. Mačala, I. Pandová, A. Panda. "Zeolite as a prospective material for the purification of automobile exhaust gases". Gospodarka Surowcami Mineralnymi/Mineral Resources Management, vol. 33(1), pp. 125-138, 2017.
  • [11] J. Valíček, M. Harničárová, I. Kopal, Z. Palková, M. Kušnerová, A. Panda, V. Šepelák. "Identification of Upper and Lower Level Yield strength in Materials". Materials, vol. 10, no. 9 pp. 1-20, 2017.
  • [12] A.D. Pogrebjak, A.S. Krivets, K.A. Dyadyura, O.V. Maksakova, Zh.K. Shaimardanov, B. Peplinska. "Research of the relief and element composition of the surface coatings based on hydroxyapatite implants from titanium alloys". Nanomaterials: Applications & Properties (NAP–2016), vol. 5, no 2, 2016.
  • [13] V. Zaloga, K. Dyadyura, I. Rybalka, I. Pandova. "Implementation of Integrated Management System in Order to Enhance Equipment Efficiency". Management Systems in Production Engineering, vol. 10, no. 4, pp. 221-226, 2019.
  • [14] V. Zaloga, K. Dyadyura, I. Rybalka, I. Pandova, T. Zaborowski. "Enhancing efficiency by implementation of integrated management system in order to align organisational culture and daily practice". Management Systems in Production Engineering, 28(4), pp. 304-311, 2020.
  • [15] V. Zaloga, K. Dyadyura, I. Rybalka, I. Pandova. "Implementation of Integrated Management System in Order to Enhance Equipment Efficiency". Management Systems in Production Engineering, vol. 27, no. 4, pp. 221-226, 2019.
  • [16] A. Panda, M. Hatala, K. Dyadyura, J. Duplak, A. Yunak. "Machinability research by new abrasionresistant cast irons cutting". Key Engineering Materials, 669, pp. 118-126, 2016.
  • [17] Т.P. Hоvоrun, O.V. Pylypenko, M.V. Hovorun, K.O. Dyadyura. "Methods of Obtaining and Properties of Wear–resistant Coatings Based on Ti and N and Ti, Al and N", J. Nano- Electron. Phys., vol. 9 no 2, 02026, 2017.
  • [18] K. Dyadyura, T.P. Hovorun, O.V. Pylypenko, M.V. Hovorun, V.I. Pererva. "Influence of roughness of the substrate on the structure and mechanical properties of TiAlN nanocoating condensed by DCMS". Proceedings of the 2017 IEEE 7th International Conference on Nanomaterials: Applications and Properties, NAP−2017, 01FNC10, 2017.
  • [19] M. Miglierini, T. Kanuch, T. Krenicky, I. Skorvanek. “Magnetic and Mossbauer studies of Fe76Mo8Cu1B15 nanocrystalline alloy”. Czechoslovak Journal of Physics, vol. 54, pp. 73-76, 2004.
  • [20] 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.
  • [21] R.S. Turtelli, et al. “Magnetic and structural characterization of as-cast and annealed melt- spun Fe80-xSi20Crx”. Journal of Magnetism and Magnetic Materials, vol. 304, no. 2, pp. E687-E689, 2006.
  • [22] A.S. Chaus, et al. “Complex fine-scale diffusion coating formed at low temperature on high-speed steel substrate”. Applied Surface Science, vol. 437, pp. 257-270, 2018.
  • [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] 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.
  • [25] 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.
  • [26] 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.
  • [27] 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.
  • [28] W. Bialy and J. Ružbarský. "Breakdown cause and effect analysis. Case study". Management Systems in Production Engineering, vol. 26, pp. 83-87, 2018.
  • [29] 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).
  • [30] Ľ. Straka, I. Čorný and J. Piteľ. "Prediction of the geometrical accuracy of the machined surface of the tool steel EN X30WCrV9-3 after electrical discharge machining with CuZn37 wire electrode". Metals, vol. 7, no. 11, pp. 1-19, 2017.
  • [31] 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.
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-7a66a7e3-dc30-4103-93a3-d791593d926b
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