The objective is to develop a unified constitutive model for finite element structural analysis of turbine engine hot-section components. This effort constitutes a different approach for non-linear finite-element computer codes which have heretofore been based on classical inelastic methods. The unified constitutive theory to be developed will avoid the simplifying assumptions of classical theory and should more accurately represent the behavior of superalloy materials under cyclic loading conditions and high temperature environments. During the first two years of the program, extensive experimental correlations were made with two representative unified models. The experiments were both uniaxial and biaxial at temperatures up to 1093 C (200...
Advanced 3-D inelastic structural/stress analysis methods and solution strategies for more accurate ...
The purpose is to develop life prediction models for coated anisotropic materials used in gas temper...
The objective of this program is to produce a series of new computer codes that permit more accurate...
The objective of the program is to evaluate and develop existing constitutive models for use in fini...
Unified constitutive material models were developed for structural analyses of aircraft gas turbine ...
The results of the first year of work on a program to validate unified constitutive models for isotr...
Unified constitutive models are characterized by the use of a single inelastic strain rate term for ...
Hot section components of gas turbine engines are subject to severe thermomechanical loads during ea...
Single crystal materials are being used in gas turbine airfoils and are candidates for other hot sec...
The objective is to develop analytical tools capable of economically evaluating the cyclic time depe...
The purpose of this program is to develop life prediction models for coated anisotropic materials us...
Thermomechanical service conditions for high-temperature levels, thermal transients, and mechanical ...
The goal is the development of constitutive equations to describe the elevated temperature stress-st...
Current gas turbine engines utilize large single crystal superalloy components in the hot section. S...
Accomplishments are described for the 2-year program, to develop advanced 3-D inelastic structural s...
Advanced 3-D inelastic structural/stress analysis methods and solution strategies for more accurate ...
The purpose is to develop life prediction models for coated anisotropic materials used in gas temper...
The objective of this program is to produce a series of new computer codes that permit more accurate...
The objective of the program is to evaluate and develop existing constitutive models for use in fini...
Unified constitutive material models were developed for structural analyses of aircraft gas turbine ...
The results of the first year of work on a program to validate unified constitutive models for isotr...
Unified constitutive models are characterized by the use of a single inelastic strain rate term for ...
Hot section components of gas turbine engines are subject to severe thermomechanical loads during ea...
Single crystal materials are being used in gas turbine airfoils and are candidates for other hot sec...
The objective is to develop analytical tools capable of economically evaluating the cyclic time depe...
The purpose of this program is to develop life prediction models for coated anisotropic materials us...
Thermomechanical service conditions for high-temperature levels, thermal transients, and mechanical ...
The goal is the development of constitutive equations to describe the elevated temperature stress-st...
Current gas turbine engines utilize large single crystal superalloy components in the hot section. S...
Accomplishments are described for the 2-year program, to develop advanced 3-D inelastic structural s...
Advanced 3-D inelastic structural/stress analysis methods and solution strategies for more accurate ...
The purpose is to develop life prediction models for coated anisotropic materials used in gas temper...
The objective of this program is to produce a series of new computer codes that permit more accurate...