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Fatigue & Fracture of Engineering Materials & Structures, 2002
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The effect of material behaviour on the analysis of single crystal turbine blades: Part II - Component analysis
duncan maclachlan
Fatigue & Fracture of Engineering Materials & Structures, 2002
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Issues Related to the Constitutive Modeling of Ni-based Single Crystal Superalloys under Aeroengine Certification Conditions
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Thermocyclic- and Static-Failure Criteria for Single-Crystal Superalloys of Gas-Turbine Blades
Artem Semenov
2014
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Multiscale modelling of single crystal superalloys for gas turbine blades
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On the design of single crystal turbine blades
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Revue de Métallurgie, 2003
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Comparative performance of turbine blades used in power generation: Damage vs. microstructure and superalloy composition selected for the application
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Engineering Failure Analysis, 2014
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Computational Fluid Dynamics Modelling of Heat Treatment of Single Crystal Nickel Based Superalloys for Turbine Blade Application
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Life Prediction of Gas Turbine Materials
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Gas Turbines, 2010
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Numerical Modelling of Stress and Strain Evolution during Solidification of a Single Crystal Superalloy
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The International Journal of Multiphysics, 2014
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Steady State Structural Analysis of Single Crystal Turbine Blade
Mrinaline Mishra
International Journal of Engineering Research and, 2016
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Investigation of the Effect of Solidification Velocity on the Quality of Single Crystal Turbine Blades
Ekaterina Rzyankina
Applied Mechanics and Materials, 2013
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Unified constitutive model for single crystal deformation behavior with applications
Eric Jordan
1988
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Structural Analysis of Super Alloy Gas Turbine Blade using FEA
Subhani Mohammed
2014
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Coupled Crystal Plasticity-Phase Field Modeling of Multi-Phase Metals
Ritesh dadhich
Procedia Structural Integrity, 2019
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Effect of Material Model on Finite Element Modeling of Aerospace Alloys
Henri Champliaud, Augustin Gakwaya
Key Engineering Materials, 2013
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Thermal Analysis and Microstructural Evaluation of Inconel 738LC Superalloy Gas Turbine Blade
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2020
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Integrated approach for stress based lifing of aero gas turbine blades
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2013
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IJERT-Structural Analysis of Super Alloy Gas Turbine Blade using FEA
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International Journal of Engineering Research and Technology (IJERT), 2014
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Fatigue Crack Growth Resistance of Advanced Blade Materials
Brad Cowles
Journal of Engineering for Gas Turbines and Power, 1987
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Design considerations for a space shuttle main engine turbine blade made of single crystal material
Ali Abdul-Aziz
Computers & Structures, 1993
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Constitutive modeling of the creep behavior of single crystal superalloys under non-isothermal conditions inducing phase transformations
Georges Cailletaud
Materials Science and Engineering: A, 2010
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Dynamic stress analysis and a fracture mechanics approach to life prediction of turbine blades
Nalinaksh Vyas
Mechanism and Machine Theory, 1997
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Sarath Chandran
Procedia Structural Integrity, 2018
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Constitutive modelling of single crystal and directionally solidified superalloys
Eric Jordan
1986
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Simulation of deformation and lifetime behavior of a fcc single crystal superalloy at high temperature under low-cycle fatigue loading
Bob Svendsen
International Journal of Fatigue, 2006
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A microstructure based constitutive model for the mechanical behavior at high temperatures of nickel-base single crystal superalloys
Bernard Fedelich
Computational Materials Science, 1999
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Thermo-Structural Analysis of High-Pressure Turbine Blade
CHiranjivi dahal
Journal of the Institute of Engineering
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Modelling high-temperature creep of anisotropic material
Dr R N Ghosh
Bulletin of Materials Science, 1994
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Theoretical investigation of structural, mechanical, elastic and vibrational properties of advanced materials under extreme conditions
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Procedia Structural Integrity
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