Results 271 to 280 of about 33,277 (314)
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Creep-fatigue interaction in austenitic stainless steels
Metallurgical Transactions A, 1977Low cycle fatigue failures occur by the initiation and controlled growth of a surface crack. The development of crack propagation models, based on continuum mechanics, have enabled successful predictions of fatigue life at both room and elevated temperatures.
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Creep-fatigue interaction: data base analysis and applications
Nuclear Engineering and Design, 1984Abstract Creep-fatigue tests were conducted with a Type 304 stainless steel at 650°C using a wide variety of strain wave forms. Wave shape and hold-time effects were of special interest. Two distinct approaches were developed for analyzing the above test results in 10−9 mbar vacuum.
Masaki Morishita, Yasuhide Asada
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Solder Creep-Fatigue Interactions With Flexible Leaded Parts
Journal of Electronic Packaging, 1992With flexible leaded parts, the solder-joint failure process involves a complex interplay of creep and fatigue mechanisms. To better understand the role of creep in typical multi-hour cyclic loading conditions, a specialized non-linear finite-element creep simulation computer program has been formulated.
R. G. Ross +3 more
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Creep-Fatigue Interactions in Advanced Eutectic Superalloys.
1984Abstract : This project has been concerned with three facets of cyclic deformation of advanced eutectic composites: (a) high cycle, stress controlled fatigue; (b) stress controlled crack growth; (c) low cycle, strain controlled fatigue. Three alloys were selected for study: Nitac 14B, Cotac 744 and AG-170.
N. S. Stoloff, N. Bylina, K. N. Jones
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Creep-fatigue interaction rules for P91
2014A number of methods for predicting the creep-fatigue life of P91 steel are presented and discussed. Beside the interaction diagram method established in the design codes, ASME Subsection NH and RCC-MR, and the ductility exhaustion modification (DE) established in BS-R5, a set of simpler models are considered.
Pohja, Rami +5 more
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Creep fatigue interactions in power plant components
Materials at High Temperatures, 2014AbstractThe increasing need for flexible electricity generation means that most components must perform under cyclic operating conditions. The multiplicity of generating options also means that defining a ‘typical’ cycle is difficult. Thus, in addition to the traditional hot and cold starts and stops, there are requirements for rapid load changes on ...
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Advances in Creep, Fatigue and Creep–Fatigue Interaction of High Temperature Structural Materials
Transactions of the Indian National Academy of Engineering, 2022A. Nagesha +3 more
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Creep-fatigue interactions in solders
Proceedings., 39th Electronic Components Conference, 2003J.K. Tien +3 more
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