Page 372 - ЛІТЕРАТУРНИЙ ОГЛЯД
P. 372
372
158. Effect of long-term thermo-mechanical treatment on the crack resistance
of the 12Kh1MF steel / O. M. Romaniv, et al. Materials Science. 1989. Vol. 25.
№ 2. P. 202–208.
159. Thomson R. C., Bhadeshia H. K. D. H. Changes in chemical composition
of carbides in 2.25Cr–1.0Mo power plant steel. Part 1. Bainitic microstructure.
Mater. Sci. Technol. 1994. Vol. 10. Iss. 3. Р. 193–203.
160. Kumar A. N. Life assessment for high temperature component –
techniques and models. Advances in Fracture Research, 1997. Vol. 1. P. 77–89.
161. Dobrzanski J., Hernas A. Correlation between phase composition and life
time of 1Cr–0.5Mo steel during long–term service at elevated temperature. J. Mat.
Proc. Tech. 1995. Vol. 53. P. 101–108.
162. Goto T. Microstructure and mechanical properties of aging materials.
Proc. Int. Conf., Chicago, 1992. P. 75–82.
163. Nonaka I., Kitagawa M. Recent techniques for residual life assessment
of materials serving fossil fuel firing aged power plants. Advances in Fracture
Research. 1997. Vol. 1. P. 15–26.
164. Shammas M. Remanent life assessment of ferritic weld heat affected
zones by a metallographic measurement of cavitations damage – the “A” parameter.
Life Extension and Refurbishment of Steam Plants: proc. conf. London: Institution
of Mechanical Engeneers, 1987. P. 289–298.
165. Stamm H., Estorff U. The use of creep damage measurements in
th
combination material models for residual life–time assessment. 8 Europ. Conf. on
Fracture, ECF-8, Torino, 1990. P. 1202–1207.
166. Strang A., Beech S. M., Gooch D. J. Remaining life evaluation of 1Cr-
Mo-V steam turbine rotors. Materials for Advanced Power Engineeringю 1994.
Part 1. P. 549–560.
167. Tipton A. A. Method for estimating remaining life of steam turbine
casings from a creep rupture standpoint. Materials for Advanced Power
Engineering. 1994. Part 1. P. 529–537.
168. Viswanathan R., Gehl S. M. Life assessment technology for power plant
