References
- Damage Mechanisms and Life Assessment of High-Temperature Components R.Viswanathan
- EPRI CS-4688 Project 2253-7 Remaining Life Estimation of Boiler Pressure Parts-Crack Growth Studies EPRI
- CS-4688, EPRI, Research Project 2253-7, Final Report Remaining-Life Estimation of Boiler Pressure Parts Crack Growth Studies R.Viswannathan;P.K.Liaw;A.Saxena
- CS-5388, Vol.1, EPRI, Research Project 2253-1, Final Report v.1 Remaining Life Estimation of Boiler Pressure Parts, Volume 1: Identification of Relevant Damage Mechanisms F.V.Ellis;J.F.Herny;B.W.Roberts
- CS-5388, Vol.2, EPRI, Research Project 2253-1, Final Report v.2 Remaining Life Estimation of Boiler Pressure Parts, Volume 2: Identification of Relevant Damage Mechanisms F.V.Ellis;J.F.Herny;B.W.Roberts
- CS-5388, Vol.3, EPRI, Research Project 2253-1, Final Report v.3 Remaining Life Estimation of Boiler Pressure Parts, Volume 3: Base Metal Model F.V.Ellis;J.F.Herny;B.W.Roberts
- CS-5388, Vol.4, EPRI, Research Project 2253-1, Final Report v.4 Remaining Life Estimation of Boiler Pressure Parts, Volume 4: Metallographic Models for Weld-Heat Affected Zone F.V.Ellis;J.F.Herny;B.W.Roberts
- CS-5585, EPRI, Research Project 2253-10 Topical Report Creep Crack Growth in Boiler and Steam Pipe Steels D.I.Roberts;A.Saxena;J.Han;K.Banerji
- Damage Mechanisms and Life Assessment of High-Temperature Components R.Viswanathan
- Proceeding of VGB Conference Turbine Failure at Irsching Power Plant A.Merz;R.Reifenhauser
- Evaluation of Remaining Life of High Temperature Headers : A case History A.Saxena;T.P.Sherlock;R.Viswanthan
- E1-4333, EPRI Research Project 1531-1 A Methodology for Predicting Torsional Fatigue Life Turbine Generator Shafts Using Crack Initiation Plus Propagation General Electric Company
- Fatigue of Engineering Materials and Structures v.3 A Model for Prediction the Effcet of Frequency on Fatigue Crack Growth at Elevated Temperature A.Saxena
- Fracture Mechanics, 13th Conference, ASTM STP7843 A Model for Representing and Predicting the Influence of Hold Times on Fatigue Crack Growth Behavior at Elevated Temperature A.Saxena;R.S.Williams;T.T.shih
- AIME/ASME Conference CA Time-Dependent fatigue Crack Growth Behavior at Elevated Temperature, Fracture : Interactions on Microstructures, Mechanisms and Mechanics A.Saxena;J.L.Bassani
- Elastic-Plastic Fracture : 2nd Symposium, Vol.Ⅱ, ASTM STP 803 v.Ⅱ Crack-Tip Stress Fields and Crack Growth under Creep-Fatigue Conditions H.Riedel