Creep damage assessment of a 50 MW steam turbine shaft (original) (raw)

Analysis of Creep Life of Steam Turbine Blade by Using Different Material

Ijesrt Journal

INTERNATIONAL JOURNAL OF ENGINEERING SCIENCES & RESEARCH TECHNOLOGY, 2014

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Probabilistic Life Assessment of Gas Turbine Blade Alloys under Creep

Mojtaba Yazdani

International Journal of Reliability, Risk and Safety: Theory and Application

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Fe Analysis of a Steam Turbine HP Rotor Blade Stage Concerning Material Effort, Dynamic Properties and Creep Damage Assessment

Jakub Pawlicki

Archive of Mechanical Engineering, 2016

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Life Assessment of Steam Turbine – the Microstructure and Grain Size Observation of Turbine Casing

Amiral Aziz

2016

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Creep Life Prediction of Gas Turbine Components under Varying Operating Conditions

Zhimin Liu, Vitali Volovoi, Dimitri N. Mavris

2001

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Creep properties of 1.25Cr-1Mo-0.25V steels for turbine casings

Sergio Gabriel Hernandez

Rem: Revista Escola de Minas, 2005

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Steam turbine moving blade failure caused by corrosion fatigue – case history

Dražan Kozak

Procedia Structural Integrity, 2018

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Remaining Life Assessment of a High Pressure Turbine Casing in Creep and Low Cycle Service Regime

Milos Djukic

2013

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Effects of Ambient Temperature and Shaft Power Variations on Creep Life Consumption of Industrial Gas Turbine Blades

Ebigenibo Genuine Saturday

Energy and Power Engineering, 2018

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Investigation into the Effects of Operating Conditions and Design Parameters on the Creep Life of High Pressure Turbine Blades in a Stationary Gas Turbine Engine

Abdullahi Abu

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Creep-Life Usage Analysis and Tracking for Industrial Gas Turbines

Ebigenibo Genuine Saturday

Journal of Propulsion and Power, 2017

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Creep-Fatigue Interaction Life Consumption of Industrial Gas Turbine Blades

Ebigenibo Genuine Saturday

Modern Mechanical Engineering

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Creep studies of Cold Worked Austenitic Stainless Steel

hari yadav

Procedia Structural Integrity, 2019

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Assessment of service induced microstructural damage and its rejuvenation in turbine blades

Rafael Fernández Castillo

Metallurgical Transactions A, 1988

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Assessment of creep deformation and rupture behaviour of 304HCu austenitic stainless steel

Captain Dr. Sunil Goyal

Procedia structural integrity, 2019

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Long-term creep behavior of 9–12%Cr power plant steels

V. Sklenicka, Milan Svoboda

Materials Characterization, 2003

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Investigation of the Effect of Changing Operating Temperature on the Creep Life and natural Frequencies of Gas Turbine Blade

Abbas Rahi

2011

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An investigation of the failure of low pressure steam turbine blades

Indranil Chattoraj

Engineering Failure Analysis, 1998

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FATIGUE FAILURE ANALYSIS OF STEAM TURBINE SHAFT USING FEM TECHNIQUE INTRODUCTION OF STEAM TURBINE SHAFT

Ijripublishers Ijri

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Effect of Creep Stress on the Microstructure of 9–12% Cr Steel for Rotor Materials

Keesam Shin

Microscopy and Microanalysis, 2013

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Effects of Tempering Temperature on the Microstructure and Creep Resistance of X22CrMoV12-1 Steel Used on Steam Turbine Blades

Franco WC

American Journal of Materials Science, 2018

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Study of Microstructure Degradation of Boiler Tubes Due To Creep for Remaining Life Analysis

IJERA Journal

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Stress Simulation of General Steam Turbine Blade Materials.

Ijesrt Journal

International Journal of Engineering Sciences & Research Technology, 2013

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TECHNOLOGY Stress Simulation of General Steam Turbine Blade Materials

Utkarsh Patel

2013

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Trends in the Development of Machinery and Associated Technology ” TMT 2008 , Istanbul , Turkey , 26-30 August , 2008 DEGRADATION PROCESSES IN CREEP-RESISTING STEELS

Marie Svobodová

2008

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Corrosion fatigue failure of steam turbine moving blades: A case study

Darko Damjanovic

Engineering Failure Analysis, 2019

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Estimation of Steam Turbine Shafts Fatigue Damage Caused by Torsional Vibrations

Anatoliy Bovsunovsky

Lecture Notes in Mechanical Engineering, 2021

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Surface crack propagation in plate specimens of 1Cr-1Mo-1/4V turbine rotor steel under creep-fatigue condition

Takayuki Kitamura

ISIJ International, 1990

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Structure and Mechanical Properties of Steel Steam Turbine Rotor Blades after Operation

Ivan Tsybailo

2022

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Life Assessment of Steam Turbine Components Based on Viscoplastic Analysis

Woosung Choi

Journal of Solid Mechanics and Materials Engineering, 2008

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Investigation of hold period influence on residual fatigue live in steam turbine shaft design

Pavel Konopik

IOP conference series, 2018

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