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M. Rozmus-Górnikowska and M. Blicharski

dissimilar metal welds, Weld. J., 31-37 (1999). [11] A.A. Omar, Effects of welding parameters on hard zone formation at dissimilar metal welds, Research Developments, 86-93 (1998). [12] B. Zhihui Wang, B. Xu, C. YE, Study of the martensite structure at the weld interface and the fracture toughness of dissimilar metal joints, Weld. Res. Suppl. 397-402 (1993). [13] C.C. Silva, H.C. de Miranda, M.F. Motta, J.P Farias, Influence of welding in operational conditions on the partial mixed zone formation in Ni-based dissimilar weld overlay, Trends in welding

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M. Rozmus-Górnikowska and M. Blicharski

References [1] M. Montgomery, A.N. Hansson, S.A. Jensen, T. Vilhelmsen, N.H. Nielsen, Materials and Corrosion 62, 1-12 (2011). [2] J.N. DuPont, J.C. Lippold, S.D Liser, Welding metallurgy and weldability nickel base alloys, A John Wiley & Sons, INC., Publication, 2009. [3] J.F. Lancaster, Metallurgy of welding, Abington Publishing, Cambridge 1999. [4] S. Kou, Welding Metallurgy, A John Wiley & Sons, INC., Publication, New Jersey 2003. [5] H.R. Zareie Rajani, S.A.A. Akbari Mousavi

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M. Rozmus-Górnikowska, Ł. Cieniek, M. Blicharski and J. Kusiński

References [1] S.H. Lee, J. Nickolas, T. Castaldi, M.J. Castaldi, High temperature corrosion in waste to energy boilers. Journal of Thermal Spray Technology 16 , 1-7 (2007). [2] S. Kou, Welding metallurgy. A John Wiley & Sons, INC., Publication, 2009. [3] M. Rozmus-Górnikowska, M. Blicharski, J. Kusiński, Influence of boiler pipe cladding techniques on their microstructure and properties. Archives of Metallurgy and Materials 4 , 1993-1996 (2013). [4] E.M. Zahrani, A.M. Alfantazi, Hot corrosion of In-conel 625 overlay weld cladding in smelting off

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P. Ambroza, S. Bockus and L. Kavaliauskiene

References [1] A. Gualco, H.G. Svoboda, E.S. Surian, L.A. de Vedia, Effect of welding procedure on wear behaviour ofamodified martensitic tool steel hardfacing deposit, Materials and Design 31 , 4165-4173 (2010). [2] D.J. Branagan, M.C. Marshall, B.E. Meacham, High toughness high hardness iron based PTAWweld materials, Materials Science and Engineering: A 458 , 116-123 (2006). [3] C.-M. Lin, C.-M. Chang, J.-H. Chen, C.-C. Hsieh, W. Wu, Microstructure and wear characteristics of high-carbon Cr

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G. Golański, M. Lachowicz, J. Słania, J. Jasak and P. Marszałek

References [1] G. Golański, A. Zieliński, J. Słania, J. Jasak, Mechanical properties of VM12 steel after 30 000 hrs ageing at 600oC temperature, Arch. Metal. Mater. 4, 59, 1357 - 1360 (2014) [2] T. Węgrzyn, J. Piwnik., Low alloy welding with micro-jet cooling, Arch. Metal. Mater. 2, 57, 540 - 543 (2012). [3] A. Zieliński, J. Dobrzański, Characteristics of changes in properties and structure in X10CrMoVN b9-1 steel due to long-term impact temperatures and stress, Arch. Mater. Sc. Eng. 60, 2, 72 - 81 (2013

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M. Rozmus-Górnikowska, M. Blicharski, J. Kusińsk, L. Kuslnski and M. Marszyck

References [1] I. Klevtsov, H. Tallermo, T. Bojarinova, Journal of Pressure Vessel Technology 127, 106-112 (2005). [2] M.A. Uusitalo, P.M.J. Vuoristo, T.A. Mantyl a, Surface and Coatings Technology 161, 275-285 (2002). [3] V. Shankr, B.S. Rao, S.L. Mannan, Journal of Nuclear Materials 28, 222-232 (2001). [4] J.N. Du Pont, J.C. Lippol d, S.D. Kise r, Welding Metallurgy and Weldability of Nickel-Base Alliys, John Wiley & Sons, New Jersey, 2009. [5] J. Adamie c, Materials

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R. Bęczkowski, J. Wróbel and A. Kulawik

– fusion-welded joints in steel, nickel, titanium and their alloys (beam welding excluded) – quality levels for imperfections. [13] ISO 15614-7:2009 Specification and qualification of welding procedures for metallic materials – Welding procedure test – Part 7: Overlay welding. [14] D.P. Koistinen, R.E. Marburger, Acta Metall. 7 , 59-60 (1959). [15] M. Kleiber, Finite element method in nonlinear continuum mechanics, 1985, PWN, Warszawa-Poznań [16] V.D. Kuzniecow, P.W. Popowicz, Weld. Technol. Rev. 83 (10), 4-7 (2011). [17] C. Li, Y. Wang

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A. Kierzek and J. Adamiec

). J. Tasak, A. Ziewiec, Spawalność materiałów konstrukcyjnych, tom1 Spawalność stali, Wydawnictwo JAK, 2009. H. Herold, A. Pchenikov, M. Steitenberger, Influence of deformation rate of different test on hot cracking formation, Bollinghaus T., Herold H. Hot cracking phenomena in welds II, Springer, 328-346 (2005). Ploshikhin V., Prikhodovsky i in.: Integrated mechanical-metallurgical approach to modeling of solidification cracking in welds, Bollinghaus T., Herold H. Hot cracking phenomena in welds, Springer, 223

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J. Winczek and T. Skrzypczak

pudding welds and the content of the base material in the overlay, Welding Int. 20 , 845-850 (2006). [29] J. Brózda, J. Pilarczyk, M. Zeman, TTT-welding diagrams transformation of austenite, Śląsk, Katowice 1983. [30] J. Winczek, A. Kulawik, Dilatometric and hardness analysis of C45 steel tempering with different heating-up rates, Metalurgija, 51 (1), 9 – 12 (2012). [31] J. Gawąd, D. Szeliga, A. Bator, V. Pidvysockyy, M. Pietrzyk, Interpretation of the tensile test results interpretation based on two criterion optimization, In: Proc. 14. Conf

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Z. Śloderbach and J. Pająk

Quenching and Tempering of Some Steels, Ingenieur Archiv 50, 315-327 (1981). [16] [16] Inoue T., Wang Z., Coupling Between Stress, Temperature and Metallic Structures During Processes Involving Phase Transformations, Materials Science and Technology 1, 845-850 (1985). [17] B. Raniecki, Overlay Model for Determining Thermalhardening Stresses in Metallic Solids, Materials Science and Technology 1, 857-862 (1985). [18] R. Parkitny, A.Pawlak and Piekarska, Temperature Fields and Stress States in Welded Tubes of Rectangular Cross