Finite-element analysis of thermal fatigue of gas turbine blades. Part 2. Results of computations
Keywords:
thermal fatigue, gas turbine blades, single-crystal superalloys, plasticity, creep, experiment, modeling.Abstract
The results of the thermocyclic durability analysis of samples for thermal fatigue tests and blades of gas turbines are obtained based on the use of the deformation criterion. In order to assess the accuracy of the thermal fatigue characteristics of the material an estimation of the inhomogeneity of the temperature fields, plastic deformations and stresses in the working part of samples of various types was made by means of direct finite element modeling. The influence of the hardening and the fixing temperature of the sample on the width of the plastic hysteresis loop was studied. It is shown that holding at the maximal temperature of the cycle substantially reduces the number of cycles before the macrocrack initiation. The computation method for evaluation of the thermal fatigue strength of gas turbine blades from poly- and single-crystal superalloys is proposed.
Downloads
Published
2019-04-07
Issue
Section
MECHANICAL ENGINEERING AND ENGINEERING SCIENCE
