Corrosion Fracture Mechanics of Metallic Materials: Basic Conceptions, Achievement and Prospective

• Autorzy: Panasyuk V. , Dmytrakh I.
• Konferencja: The First European Summer School of Fatigue and Fracture (ESSFF1) and The Ninth Polish-Ukrainian-German Summer of Fracture Mechanics (SSFM9) on NEW RESULTS IN FATIGUE AND FRACTURE. Vol.1 (1,9;19-26.06.2005;Zakopane;Polska)
• Języki publikacji: EN

Słowa kluczowe

EN

fracture mechanics; metallic materials; corrosion

• Wydawca: Oficyna Wydawnicza Politechniki Opolskiej
• Czasopismo: Zeszyty Naukowe. Mechanika / Politechnika Opolska
• Rocznik: 2005
• Tom: z. 79
• Strony: 223--242
• Opis fizyczny: Bibliogr. 17 poz., rys., tab., wykr.

Twórcy

autor

Panasyuk V.

• Karpenko Physico-Mechanical Institute of NAS of Ukraine

autor

Dmytrakh I.

• Karpenko Physico-Mechanical Institute of NAS of Ukraine

Bibliografia

• 1. PANASYUK V. V. Strength and fracture of solids with cracks.- Lviv: National Academy of Sciences of Ukraine, Karpenko Physico-Mechanical Institute. - 2002. - 468 ps.
• 2. DMYTRAKH L M., PANASYUK V. V. (1999). An influence of the corrosive environments on local fracture of the metals near the stress eoncentrators - Lviv: National Academy of Sciences of Ukraine. Karpenko Physico-Mechanical Institute. -341ps (in Ukrainian).
• 3. PANASYUK V. V., DMYTRAKH I. M. (1998) Determination and prediction of corrosion fatigue cracks nucleation from surface of the semicircular notches. In: Proc. 12th European Conf. on Fracture (ECF-12). 14-18 Sept., 1998.- Sheffield (UK): EMAS.- 1998.- pp. 1187-1192.
• 4. DMYTRAKH I. M. (2001) On corrosion fatigue initiation from notches and the local corrosion fracture approaches. In.: "Notch Effects in Fatigue and Fracture" -NATO Science Series: II. Mathematics, Physics and Chemistry- The Netherlands: Kluwer Academic Publishers.- 2001.- Vol. 11. -pp. 331-346.
• 5. DMYTRAKH I. M., SYROTYUK A. M., HRABOVSKYI R. S. (2002) Model of surface fatigue cracks nucleation as result of corrosion deformation interactions. In: Proc. 14th Buropean Conference on Fracture. - Cracow (Poland): UK: EMAS Publishing.- 2002.- Vol. I- pp. 489-496.
• 6. DMYTRAKH I. M., AKID R., MILLER K. J. (1997) Electrochemistry of deformed smooth surfaces and short corrosim1 fatigue crack growth behaviour. British Corrosion Journal, 32, 2, pp. 138-144.
• 7. AKID R., DMYTRAKH I. M. (1998) Influence of surface deformation and electrochemical variabies on corrosion and corrosion fatigue crack development. Fatigue & Fracture of Engineering Materials & Structures 21, No 7. -pp. 903-911. '
• 8. DMYTRAKH I. M., SYROTYUK A. M (2004) Corrosion fatigue cracking and durability assessment of pipelines for heat power engineering. In: Fracture mechanics of materials and structural integrity / Editor V.V. Panasyuk- Lviv: KPhMI of the NASU - pp. 465-470 (in Ukrainian).
• 9. PANASYUK V. V., RATYCH L. V., DMYTRAKH I. M. (1987). The role of electrochemical simulation in the crack tip in corrosion cracking and corrosion fatigue of metals. Corosion Science and Engineering. Bull. Electrochem, 3, 6, pp. 553-557.
• 10. PANASYUK V. V., DMYTRAKH I. M. (1991) Brittle fracture mechanics of materials in corrosive environments. In: Vortage zur 17. Metalltagung "Umgebungsabhangiges Bruchverhalten", Dresden: Informations gesellschaft verlag, pp. 43-70.
• 11. PANASYUK V. V., RATYCH L. V., DMYTRAKH I. M. (1984) Fatigue crack growth in corrosive environments. Fatigue Engineering. Materials and Structures, 7, l, pp. 1-11.
• 12. DMYTRAKH I. M., VAINMAN A. B., STASHCHUK M. H., TOTH L. (2005) Reliability and durability of structural elements for heat-and-power engineering equipment. Reference manuał - Kiev: Publishing House of NASU "Academperiodyka" - 504 ps, (in Ukrainian).
• 13. ASME (1979). Boiler and Pressure Vessel Design Code. Section XI. NY: ASME.
• 14. BAMFORD W. H. (1979). Application of corrosion fatigue crack growth rate data to integrity analyses of nuclear reactor vessels. J. Eng. Mater. and Technol. 101 (3) pp. 182-190.
• 15. AKID R., DMYTRAKH I. M., GONZALEZ-SANCHEZ J. (2005) Environmental Aspects of Damage Accumulation. International J. Fatigue- 10p.
• 16. DMYTRAKH I. M., PLUVINAGE G., QILAFKU G. (2001). On corrosion fatigue emanating from notches: stress field and electrochemistry. Physicochemical Mechanics of Materials. -2001.- Vol. 37.-N 2.- P. 43-53.
• 17. DMYTRAKH l. M., KOLODII B. I., BILYI O. L. (2003) Detennination of electrochemical current density from the surface of corrosion pits in threelayered materiaL Physicochemical Mechanics of Materials. 39, 3, pp. 14-18 (in Ukrainian).