Stress analysis of turbine components under spin rig thermomechanical condition

This paper presents the stress analysis of a second stage turbine disc, subjected to spin rig test. To solve the problem, the finite element analysis of complex geometrical model of the disc/blade segment with much physical nonlinearity such as contact and plasticity was carried out. The adequate m...

Full description

Bibliographic Details
Main Author: Lucjan Witek
Format: Article
Language:English
Published: Vilnius Gediminas Technical University 2004-12-01
Series:Aviation
Subjects:
FEM
Online Access:https://journals.vgtu.lt/index.php/Aviation/article/view/7477
Description
Summary:This paper presents the stress analysis of a second stage turbine disc, subjected to spin rig test. To solve the problem, the finite element analysis of complex geometrical model of the disc/blade segment with much physical nonlinearity such as contact and plasticity was carried out. The adequate mechanical and thermal conditions for the spin rig test were next defined to determine the stress state of the disc/blade segment. High stress zones were found at the regions of the turbine where the first fatigue cracks are expected to appear. The results of this study are useful during the laboratory spin rig test of turbine. The zones of maximum stress indicated in this analysis will be in detail inspected under laboratory crack initiation and crack growth tests of turbine. For better understanding the phenomena occurring in spin rig test of turbine, the test details were also described. First Published Online: 14 Oct 2010
ISSN:1648-7788
1822-4180