Add to ORKGThe activities performed during the first year of the NASA HOST Program, Creep Fatigue Life Prediction for Engine Hot Section Materials (Isotropic), being conducted by Pratt & Whitney Aircraft are summarized. The program is a 5 year, two part effort aimed at improving the high temperature crack initiation prediction technology for gas turbine hot section components. Significant results of the program produced thus far are discussed. Cast B1900 + Hf and wrought IN 718 were selected as the base and alternate materials, respectively. A single heat of B1900 + Hf was obtained and test specimens fabricated. The material was characterized with respect to grain size, gamma prime size, carbide distribution, and dislocation density. Monotonic tensile...
The highlights of NASA contract CR-167896, Fracture Mechanics Criteria for Turbine Engine Hot Sectio...
This paper is a summary of two NASA contracts on high temperature fatigue crack propagation in metal...
A high temperature, low cycle fatigue life prediction method was developed. This method, Cyclic Dama...
The first two years of a two-phase program aimed at improving the high temperature crack initiation ...
The specific activities summarized include: verification experiments (base program); thermomechanica...
The Hot Section Technology (HOST) program, creep fatigue life prediction for engine hot section mate...
This program is designed to investigate fundamental damage processes, identify modeling strategies, ...
As gas turbine technology continues to advance, the need for advanced life prediction methods for ho...
A major objective of the fatigue and fracture efforts under the NASA Hot Section Technology (HOST) p...
A major objective of the fatigue and fracture efforts under the Hot Section Technology (HOST) progra...
One of the primary drivers that prompted the initiation of the hot section technology (HOST) program...
The major technology areas needed to perform a life prediction of an aircraft turbine engine hot sec...
A review is presented of thermal and thermomechanical fatigue (TMF) crack initiation life prediction...
The application of several fracture mechanics data correlation parameters to predicting the crack pr...
Hot section components of gas turbine engines are subject to severe thermomechanical loads during ea...
The highlights of NASA contract CR-167896, Fracture Mechanics Criteria for Turbine Engine Hot Sectio...
This paper is a summary of two NASA contracts on high temperature fatigue crack propagation in metal...
A high temperature, low cycle fatigue life prediction method was developed. This method, Cyclic Dama...
The first two years of a two-phase program aimed at improving the high temperature crack initiation ...
The specific activities summarized include: verification experiments (base program); thermomechanica...
The Hot Section Technology (HOST) program, creep fatigue life prediction for engine hot section mate...
This program is designed to investigate fundamental damage processes, identify modeling strategies, ...
As gas turbine technology continues to advance, the need for advanced life prediction methods for ho...
A major objective of the fatigue and fracture efforts under the NASA Hot Section Technology (HOST) p...
A major objective of the fatigue and fracture efforts under the Hot Section Technology (HOST) progra...
One of the primary drivers that prompted the initiation of the hot section technology (HOST) program...
The major technology areas needed to perform a life prediction of an aircraft turbine engine hot sec...
A review is presented of thermal and thermomechanical fatigue (TMF) crack initiation life prediction...
The application of several fracture mechanics data correlation parameters to predicting the crack pr...
Hot section components of gas turbine engines are subject to severe thermomechanical loads during ea...
The highlights of NASA contract CR-167896, Fracture Mechanics Criteria for Turbine Engine Hot Sectio...
This paper is a summary of two NASA contracts on high temperature fatigue crack propagation in metal...
A high temperature, low cycle fatigue life prediction method was developed. This method, Cyclic Dama...