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notches, International Journal of Fatigue , 16, 242–256. 31. Szala J., Ligaj B., Szala G. (2014), Sources of differences in calculations and experimental test results of fatigue life of structural elements, Scientific Journal of Silesian University of Technology. Series Transport, 83, 271–277. 32. Tricoteaux A., Fardoun F., Degallaix S., Sauvage F. (2007), Fatique crack initiation life prediction in high strength structural steel welded joints, Fatique & Fracture of Engineering Materials & Structures , 18(2), 189–200. 33. Viswanathan R. (1989), Damage

Membranes with 1-Decyl-4-Methylimidazole for Pertraction of Transition Metal Ions . Separation Science and Technology, 49, 1713-1721. Ulewicz, R., Jelonek, D., Mazur, M., 2016. Implementation of logic flow in planning and production control . Management and Production Engineering Review, 7, 89-94. Ulewicz, R., Novy, F. R., 2016. The influence of the surface condition on the fatigue properties of structural steel . Journal of the Balkan Tribological Association, 22, 1147-1155.

ONE 13, e0202556. Sygut, P., Klimecka-Tatar, D., Borkowski, S., 2016. Theoretical analysis of the influence of longitudinal stress changes on band dimensions during continuous rolling process . Arch. Metall. Mater., 61, 183-188. Szczotok, A., Nawrocki, J., Gądek-Moszczak, A., Kołomycki, M., 2015. The Bootstrap Analysis of One-Way ANOVA Stability in the Case of the Ceramic Shell Mould of Airfoil Blade Casting . Solid State Phenomena, 235, 24-30. Ulewicz, R.; Novy, F. R., 2016. The influence of the surface condition on the fatigue properties of structural steel

, 1713-1721. Ulewicz, M., Radzyminska-Lenarcik, E., 2015. Application of Polymer Inclusion Membranes Doped with 1-Hexyl-4-Methylimidazole for Pertraction of Zinc(Ii) and other Transition Metal Ions . Physicochemical Problems of Mineral Processing, 51, 447-460. Ulewicz, R.; Novy, F. R., 2016. The influence of the surface condition on the fatigue properties of structural steel . Journal of the Balkan Tribological Association, 22, 1147-1155. Ulewicz, R., Selejdak, J., Borkowski, S., Jagusiak-Kocik, M., 2013. Process Management in the Cast Iron Foundry , in: METAL 2013

behavior for friction taper plug welding in structural steel S355 . The International Journal of Advanced Manufacturing Technology, 88(9-12) (2017), pp. 3459-3466.

of fatigue crack growth,” Engineering Fracture Mechanics , vol. 5, pp. 691–697, 1973. https://doi.org/10.1016/0013-7944(73)90047-7 [5] T. C. Lindley, I. G. Palmer, and C. E. Richards, “Acoustic emission monitoring of fatigue crack growth,” Materials Science and Engineering , vol. 32, pp. 1–15, 1978. https://doi.org/10.1016/0025-5416(78)90206-9 [6] Z. F. Wang, J. Li, W. Ke, and Z. Zhu, “Characteristics of acoustic emission for A537 structural steel during fatigue crack propagation,” Scripta Metallurgica et Materialia , vol. 27, no. 5, pp. 641–646, 1992. https

alloy with boron, titanium and strontium . Arch. Metall. Mater., 60, 2415-2419. DOI: 10.1515/amm-2015-0394 Lipinski, T., 2018. The effect of the diameter and spacing between impurities on the fatigue strength coefficient of structural steel . Arch. Metall. Mater., 63, 519-524. DOI: 10.24425/118970 Lu, Z. P., Friedrich, K., 1995. On sliding friction and wear of PEEK and its composites , Wear, 181-183, 624-631. Opydo, M., Kobylecki, R., Dudek, A., Bis, Z. 2016. The effect of biomass co-combustion in a CFB boiler on solids accumulation on surfaces of P91 steel tube

, 200-205. DOI: 10.21741/9781945291814-35 Lipinski, T., 2015. Double modification of AlSi9Mg alloy with boron, titanium and strontium . Arch. Metall. Mater., 60, 2415-2419. DOI: 10.1515/amm-2015-0394 Lipinski, T., 2018. The effect of the diameter and spacing between impurities on the fatigue strength coefficient of structural steel . Arch. Metall. Mater., 63, 519-524. DOI: 10.24425/118970 Lu C., Feng X., Yang J., Jia J., Yi G., Xie E., Sun Y., 2019. Influence of surface microstructure on tribological properties of PEO-PTFE coating formed on aluminum alloy , Surface

corroded fillet welded joints for ship structures (in Japanese) . J. Society of the Naval Architects of Japan, 2004, Vol. 195, pp.291-297. 27. Cui N., Qiao L.J., Luo J.L., Chiovelli S.: Pitting of carbon steel with banded microstructures in chloride solutions. British Corrosion Journal, 2000, Vol.35. 28. Boukerrou A., Cottis R.A.: Crack initiation in the corrosion fatigue of structural steels in salt solutions. Corrosion Science, 1993, Vol.35, pp.577-585. 29. Miller K.J., Akid R.: The application of microstructural Fracture Mechanics to various metal surface

-Khalil, K.M. Yee, “Some tests on a new type of composite column”, Proc. Instn. Civ. Engrs, Part 2, 75: 283-296, 1983. 22. R. Venugopal, N. Shanmugan, J.R. Liew, “Built-up columns encased in concrete”, Proceedings of the International Conference on Advances in Structures ASSCCA’03, June, pp 759-764, 2003. 23. K.S. Virdi, P.J. Dowling, “Bond strength in concrete filled steel tubes”, Proceedings, IABSE, August, pp 125-139, 1980. 24. AISC-LRFD Load and resistance factor design specification for structural steel buildings, American Institution of Steel Construction, Chicago