Corrosion Fatigue of Metals in Marine Environments

This book was prepared to document and review the major factors involved in corrosion fatigue of metals in marine environments. This includes both crack initiation and crack growth. Background information was obtained by searching technical literature through eight different sources--(1) Chemical Ab...

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Hauptverfasser:	Jaske, C E, Payer, J H, Balint, V S
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Sprache:	eng
Schlagworte:	ALUMINUM ALLOYS CARBON COPPER CORROSION CRACK PROPAGATION FAILURE(MECHANICS) FATIGUE(MECHANICS) Mechanics METALS NICKEL ALLOYS OCEAN ENVIRONMENTS Properties of Metals and Alloys SEA WATER STAINLESS STEEL TITANIUM ALLOYS
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creator	Jaske, C E Payer, J H Balint, V S
description	This book was prepared to document and review the major factors involved in corrosion fatigue of metals in marine environments. This includes both crack initiation and crack growth. Background information was obtained by searching technical literature through eight different sources--(1) Chemical Abstracts, (2) Metals Abstracts, (3) Metals and ceramics Information Center (MCIC), (4) Engineering Index, (5) Copper Data Center, (6) National Technical Information Service, (7) Defense Technical Information Service, and (8) Proceedings of Offshore Technology Conferences. Unpublished and proprietary papers and reports were excluded unless permission was obtained to release the results contained therein. Thus, most of the information was from documents published in the open literature. For convenient use and reference, discussions on corrosion-fatigue behavior are divided into separate chapters dealing with (1) carbon and alloy steels, (2) stainless steels, (3) nickel-base alloys, (4) copper-base alloys, (5) aluminum alloys, and (6) titanium alloys. Representative plots and tabulations of important data and factors influencing them are presented, but exhaustive plots and tabulations of all available data, such as might be found in handbooks, are not included because these are beyond the scope of this review. A general background for corrosion fatigue is presented in Chapter 2, which briefly discusses experimental procedures, general phenomena and mechanisms, variables affecting corrosion of metals in marine environments, and use of fatigue data in design.
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This includes both crack initiation and crack growth. Background information was obtained by searching technical literature through eight different sources--(1) Chemical Abstracts, (2) Metals Abstracts, (3) Metals and ceramics Information Center (MCIC), (4) Engineering Index, (5) Copper Data Center, (6) National Technical Information Service, (7) Defense Technical Information Service, and (8) Proceedings of Offshore Technology Conferences. Unpublished and proprietary papers and reports were excluded unless permission was obtained to release the results contained therein. Thus, most of the information was from documents published in the open literature. For convenient use and reference, discussions on corrosion-fatigue behavior are divided into separate chapters dealing with (1) carbon and alloy steels, (2) stainless steels, (3) nickel-base alloys, (4) copper-base alloys, (5) aluminum alloys, and (6) titanium alloys. Representative plots and tabulations of important data and factors influencing them are presented, but exhaustive plots and tabulations of all available data, such as might be found in handbooks, are not included because these are beyond the scope of this review. 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This includes both crack initiation and crack growth. Background information was obtained by searching technical literature through eight different sources--(1) Chemical Abstracts, (2) Metals Abstracts, (3) Metals and ceramics Information Center (MCIC), (4) Engineering Index, (5) Copper Data Center, (6) National Technical Information Service, (7) Defense Technical Information Service, and (8) Proceedings of Offshore Technology Conferences. Unpublished and proprietary papers and reports were excluded unless permission was obtained to release the results contained therein. Thus, most of the information was from documents published in the open literature. For convenient use and reference, discussions on corrosion-fatigue behavior are divided into separate chapters dealing with (1) carbon and alloy steels, (2) stainless steels, (3) nickel-base alloys, (4) copper-base alloys, (5) aluminum alloys, and (6) titanium alloys. Representative plots and tabulations of important data and factors influencing them are presented, but exhaustive plots and tabulations of all available data, such as might be found in handbooks, are not included because these are beyond the scope of this review. 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Representative plots and tabulations of important data and factors influencing them are presented, but exhaustive plots and tabulations of all available data, such as might be found in handbooks, are not included because these are beyond the scope of this review. A general background for corrosion fatigue is presented in Chapter 2, which briefly discusses experimental procedures, general phenomena and mechanisms, variables affecting corrosion of metals in marine environments, and use of fatigue data in design.</abstract><oa>free_for_read</oa></addata></record>
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subjects	ALUMINUM ALLOYS CARBON COPPER CORROSION CRACK PROPAGATION FAILURE(MECHANICS) FATIGUE(MECHANICS) Mechanics METALS NICKEL ALLOYS OCEAN ENVIRONMENTS Properties of Metals and Alloys SEA WATER STAINLESS STEEL TITANIUM ALLOYS
title	Corrosion Fatigue of Metals in Marine Environments
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