Life Prediction for Turbopropulsion Systems Under Dwell Fatigue Conditions

Author:

Chan Kwai S.1,Enright Michael P.,Moody Jonathan P.2,Hocking Benjamin,Fitch Simeon H. K.3

Affiliation:

1. ASME Fellow

2. Southwest Research Institute®, San Antonio, TX 78238

3. Elder Research Inc., Charlottesville, VA 22903

Abstract

The objective of this investigation was to develop an innovative methodology for life and reliability prediction of hot-section components in advanced turbopropulsion systems. A set of three generic time-dependent crack growth models was implemented and integrated into the Darwin® probabilistic life-prediction code. Using the enhanced risk analysis tool and material constants calibrated to IN 718 data, the effect of time-dependent crack growth on the risk of fracture in a turboengine component was demonstrated for a generic rotor design and a realistic mission profile. The results of this investigation confirmed that time-dependent crack growth and cycle-dependent crack growth in IN 718 can be treated by a simple summation of the crack increments over a mission. For the temperatures considered, time-dependent crack growth in IN 718 can be considered as a K-controlled environmentally-induced degradation process. Software implementation of the generic time-dependent crack growth models in Darwin provides a pathway for potential evaluation of the effects of multiple damage modes on the risk of component fracture at high service temperatures.

Publisher

ASME International

Subject

Mechanical Engineering,Energy Engineering and Power Technology,Aerospace Engineering,Fuel Technology,Nuclear Energy and Engineering

Reference16 articles.

1. A Probabilistic Micromechanical Code for Predicting Fatigue Life Variability: Model Development and Application;ASME J. Eng. Gas Turbines Power,2006

2. A Model for Creep/Fatigue Interactions in Alloy 718

3. Hold-Time Effects in Elevated Temperature Fatigue Crack Propagation,1986

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