Add to ORKGA high temperature, low cycle fatigue life prediction method was developed. This method, Cyclic Damage Accumulation (CDA), was developed for use in predicting the crack initiation lifetime of gas turbine engine materials, but it can be applied to other materials as well. The method is designed to account for the effects on creep-fatigue life of complex loading such as thermomechanical fatigue, hold periods, waveshapes, mean stresses, multiaxiality, cumulative damage, coatings, and environmental attack. Several features of this model were developed to make it practical for application to actual component analysis, such as the ability to handle nonisothermal loading (including TMF), arbitrary cycle paths, and multiple damage modes. The CDA li...
International audienceThis paper contains a brief description of a lifetime prediction model for Sin...
The specific activities summarized include: verification experiments (base program); thermomechanica...
The aim of the work described in this paper is to provide a computational method for fatigue life pr...
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 ...
This program is designed to investigate fundamental damage processes, identify modeling strategies, ...
A review is presented of thermal and thermomechanical fatigue (TMF) crack initiation life prediction...
A major objective of the fatigue and fracture efforts under the Hot Section Technology (HOST) progra...
AbstractThermo-mechanical fatigue (TMF) is a critical damage process in gas turbine jet engines. Rel...
The problem of calculating expected component life under fatigue loading conditions is complicated b...
The major technology areas needed to perform a life prediction of an aircraft turbine engine hot sec...
The overall goal of achieving improved life cycle management of aircraft engine, gas turbine compone...
As gas turbine technology continues to advance, the need for advanced life prediction methods for ho...
The aim of the work described in this paper is to provide a computational method for fatigue life pr...
Announced survey directs attention toward low cycle fatigue and thermal fatigue experienced at eleva...
International audienceThis paper contains a brief description of a lifetime prediction model for Sin...
The specific activities summarized include: verification experiments (base program); thermomechanica...
The aim of the work described in this paper is to provide a computational method for fatigue life pr...
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 ...
This program is designed to investigate fundamental damage processes, identify modeling strategies, ...
A review is presented of thermal and thermomechanical fatigue (TMF) crack initiation life prediction...
A major objective of the fatigue and fracture efforts under the Hot Section Technology (HOST) progra...
AbstractThermo-mechanical fatigue (TMF) is a critical damage process in gas turbine jet engines. Rel...
The problem of calculating expected component life under fatigue loading conditions is complicated b...
The major technology areas needed to perform a life prediction of an aircraft turbine engine hot sec...
The overall goal of achieving improved life cycle management of aircraft engine, gas turbine compone...
As gas turbine technology continues to advance, the need for advanced life prediction methods for ho...
The aim of the work described in this paper is to provide a computational method for fatigue life pr...
Announced survey directs attention toward low cycle fatigue and thermal fatigue experienced at eleva...
International audienceThis paper contains a brief description of a lifetime prediction model for Sin...
The specific activities summarized include: verification experiments (base program); thermomechanica...
The aim of the work described in this paper is to provide a computational method for fatigue life pr...