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Oxide Coatings on Titanium Produced by Oxidation in Fluidized Bed

References R. Langer: Biomaterials and biomedical engineering. Chemical Engineering Science 50, 1995, pp. 4109-4121. M. Niinomi, D. Kuroda, K. Fukunaga, M. Morinaga, Y. Kato, T. Yashiro, A. Suzuki: Corrosion wear fracture of new β type biomedical titanium alloys. Materials Science and Engineering A263, 1999, pp. 193-199. Y. Okazaki: A new Ti-15Zr-4Nb-4Ta alloy for medical applications. Current Opinion in Solid State and Materials Science 5, 2001, pp. 45

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Fouling of Titanium and Stainless Steel in Sea Water

References Adamiec P., Szczok E.: Problemy przy spawaniu tytanu i jego stopów. Zeszyty Naukowe Politechniki Opolskiej. Mechanika. No 250/99, Z.58, pp. 21-26. Jastrzębski T.: Stopy tytanu w konstrukcjach oceanotechnicznych. Zeszyty Naukowe Politechniki Opolskiej. Mechanika. No 250/99, Z.58, pp. 43-54. Kotaki H.: The present state of titanium ship and its advantage. Titanium Japan , vol. 48, no. 1, pp. 20-33, Jan. 2000. Kotaki H.: All titanium ship. Journal

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Review of Titanium and Steel Welding Methods

References Błaszczyk W., Melechow R., Tubielewicz K.: Tytan i jego stopy. Wydawnictwo Politechniki Częstochowskiej, Częstochowa, 2004. Pilarczyk J.: Problemy spajania tytanu. VIII OGÓLNOPOLSKA KONFERENCJA. TYTAN I JEGO STOPY. Warszawa, 24-26 październik 2005. Walczak W.: Zgrzewanie wybuchowe metali i jego zastosowanie. WNT, Warszawa, 1989. Welding Titanium a Designers and Users Handbook. Guide to Best Practice. 1999. Гуревич С. М

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Cryogenic Rotary Ultrasonic Machining of Titanium Alloys

References 1. SINGH, R., KHAMBA, J. S. 2006. Ultrasonic machining of titanium and its alloys: A review. Journal of Materials Processing Technology , 125-135. 2. BOYER, R. R. 1996. An overview on the use of titanium in aerospace industry. Materials Science and Engineering A 213 (1), 103-114. 3. PETERS, M., LEYENS, C. 2009. Titan und Titanlegierungen. Wiley VCH , Weinheim. 4. HONG, S. Y., MARKUS, I., JEONG, W. 2001. New cooling approach and tool life improvement in cryogenic machining

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Investigations of Titanium Implants Covered with Hydroxyapatite Layer

REFERENCES 1. Błażewicz S., Stoch L., Biomaterials, vol. 4, Academic Publisher Office Exit, Warszawa 2003. 2. Surowska B., Weroński A.: Structure and properties of biomaterials, Publishing Office of Technical University of Lublin, Lublin 1990. 3. Szewczenko J., Marciniak J., Kajzer W., Kajzer A., Evaluation of corrosive resistance of titanium alloys used for medical implants, Archives of Metallurgy and Materials, 61 (2) (2016), 695-700. 4. Bronzino, B. Raton B., The biomedical engineering handbook, second edition, CRC Press LLC (2000

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Preparation of cobalt titanates via co-precipitation while using industrial intermediates as titanium precursors

Pishch, I.V. & Radion, E.V. (2003). Production of pigments with perovskite-like structure based on nickel titanate by the precipitation method. Glass and Ceramics.   60 (5-6), 154-157. DOI: 10.1023/A:1025760901128. Lin, Y., Chang, Y., Yang W. & Tsai B. (2006). Synthesis and characterization of ilmenite NiTiO 3 and CoTiO 3 prepared by a modified Pechini method. J. Non-Crystal. Sol.   352 (8), 789-794. DOI: 10.1016/j.jnoncrysol.2006.02.001. Barksdale, J. (1996). Titanium: its occurrence, chemistry and technology

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Orbital TIG Welding of Titanium Tubes with Perforated Bottom Made of Titanium-Clad Steel

. Skowrońska, B., Chmielewski, T., Pachla, W., Kulczyk, M., Skiba, J., Presz, W. (2019). Friction Weldability of UFG 316L stainless steel. Archives of Metallurgy and Materials , 64, 1051-1058. 8. Winczek, J., Gawronska, E., Gucwa, M., Sczygiol, N. (2019). Theoretical and experimental investigation of temperature and phase transformation during SAW overlaying. Applied Sciences , 9(7), 1472. 9. Talkington, J., Harwig, D., Castner. H., Mitchell, G. (2000). Development of titanium weld color inspection tools. Welding Journal, 79(3), 35-38. 10. Margolin. H

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Environmental degradation of titanium alloy in artificial saliva

References Brunette D.M., Tengvall P., Textor M., Thomsen P.: Titanium in medicine. Springer, Germany 2001. Liu X., Chu P.K., Ding Ch.: Surface modification of titanium, titanium alloys, and related materials for biomedical applications. Mater. Sci. Eng. 47 (2004), 49-121. Kaszuwara W.: Shape memory alloys. Inżynieria Materiałowa 2 (2004), 61-64. In Polish; English abstract. Zieliński A., Sobieszczyk S., Seramak T., Serbiński W., Świeczko-Żurek B

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Titanium dioxide in our everyday life; is it safe?

References Ophus EM, Rode L, Gylseth B, Nicholson DG, Saeed K. Analysis of titanium pigments in human lung tissue. Scand J Work Environ Health 1979; 53 : 290-6. Lindenschmidt RC, Driscoll KE, Perkins MA, Higgins JM, Maurer JK, Belfiore KA. The comparison of a fibrogenic and two nonfibrogenic dusts by bronchoalveolar lavage. Toxicol Appl Pharmacol 1990; 102 : 268-81. Backus R. Lighting up time for TiO2. Industrial Minerals 2007; 473 : 28

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Properties of Surface Layers of Titanium Alloy TI6AL4V After Laser Melting Processes

. Cheung, H. C. Man, The effects of laser surface treatment on the corrosion properties of Ti-6Al-4V alloy in Hank‵s solution, Journal Materials Science Letters 19 (2000) 205-208. T. M. Yue, J. K. Yu, Z. Mei, H. C. Man, Excimer laser surface treatment of Ti-6Al-4V alloy for corrosion resistance enhancement, Materials Letters 52 (2002) 206-212. F. Guillemot, E. Prima et al., Ultraviolet laser surface treatment fore biomedical applications of titanium alloys: morphological and structural characterization, Applied Physics

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