Search
Filters
Close

Save 20% on select titles with code HIDDEN24 - Shop The Sale Now

01116 TOWARDS A MECHANISM BASED THEORY FOR CRACK INITIATION

Product Number: 51300-01116-SG
ISBN: 01116 2001 CP
Author: Digby D. Macdonald, George R. Engelhardt
$0.00
$20.00
$20.00
Stress corrosion cracking and corrosion fatigue commonly initiate at corrosion pits, which serve as stress raisers. Thus, the challenge in predicting the initiation of these forms of stress induced damage to a metal surface in a corrosive medium reduces to the prediction of the initiation and growth of stable pits. Because the stress intensity factor (KI) increases with increasing pit depth (for a constant stress), the transition of a pit into a crack is envisioned to occur when the stress intensity exceeds the critical value for the initiation of a crack (Kiscc). In this paper, we outline a deterministic theory for the initiation of stress corrosion cracking and corrosion fatigue based on the Point Defect Model (PDM) for passivity breakdown and the Coupled Environment Pitting Model (CEPM) for pit growth within the framework of Damage Function Analysis (DFA). Once a crack initiates, the Coupled Environment Fracture Model (CEFM) and the Coupled Environment Corrosion Fatigue Model (CECFM) for stress corrosion cracking and corrosion fatigue, respectively, describe continued, stress-augmented propagation. The principals of DFA are illustrated by reference to the development of localized corrosion damage on aluminum exposed to sodium chloride solution, with emphasis on illustrating the interplay between stress-related and electrochemical effects. Practical applications in describing the failure of condensing heat exchangers and low-pressure steam turbines are also discussed. Key Words: Crack initiation, prediction of damage, determinism, passivity breakdown.
Stress corrosion cracking and corrosion fatigue commonly initiate at corrosion pits, which serve as stress raisers. Thus, the challenge in predicting the initiation of these forms of stress induced damage to a metal surface in a corrosive medium reduces to the prediction of the initiation and growth of stable pits. Because the stress intensity factor (KI) increases with increasing pit depth (for a constant stress), the transition of a pit into a crack is envisioned to occur when the stress intensity exceeds the critical value for the initiation of a crack (Kiscc). In this paper, we outline a deterministic theory for the initiation of stress corrosion cracking and corrosion fatigue based on the Point Defect Model (PDM) for passivity breakdown and the Coupled Environment Pitting Model (CEPM) for pit growth within the framework of Damage Function Analysis (DFA). Once a crack initiates, the Coupled Environment Fracture Model (CEFM) and the Coupled Environment Corrosion Fatigue Model (CECFM) for stress corrosion cracking and corrosion fatigue, respectively, describe continued, stress-augmented propagation. The principals of DFA are illustrated by reference to the development of localized corrosion damage on aluminum exposed to sodium chloride solution, with emphasis on illustrating the interplay between stress-related and electrochemical effects. Practical applications in describing the failure of condensing heat exchangers and low-pressure steam turbines are also discussed. Key Words: Crack initiation, prediction of damage, determinism, passivity breakdown.
PRICE BREAKS - The more you buy, the more you save
Quantity
1+
5+
Price
$20.00
$20.00
Product tags
Also Purchased
Picture for 01083 H2S and CO2 CORROSION OF SOME 9Cr-lMo ALLOYS
Available for download

01083 H2S and CO2 CORROSION OF SOME 9Cr-lMo ALLOYS FOR DOWNHOLE APPLICATIONS

Product Number: 51300-01083-SG
ISBN: 01083 2001 CP
Author: S.Trasatti, L Scoppio, T. Cheldi
$20.00
Picture for 01117 THE INFLUENCE OF DISSOLVED HYDROGEN
Available for download

01117 THE INFLUENCE OF DISSOLVED HYDROGEN ON NICKEL ALLOY SCC: A WINDOW TO FUNDAMENTAL INSIGHT

Product Number: 51300-01117-SG
ISBN: 01117 2001 CP
Author: D.S. Morton, S.A. Attanasio, G.A. Young, EL. Andresen, T.M. Angeliu
$20.00
Picture for 01119 OXIDATION OF MATERIALS FOR NUCLEAR
Available for download

01119 OXIDATION OF MATERIALS FOR NUCLEAR WASTE CONTAINERS UNDER LONG TERM DISPOSAL

Product Number: 51300-01119-SG
ISBN: 01119 2001 CP
Author: A. Galtayries, P. Marcus, A. Terlain, C. Desgranges, D. Gauvain, and D. Feron
$20.00