Materials for Marine Systems and Structures: Treatise on Materials Science and Technology, Vol. 28, Volume 28Dennis F. Hasson, C. R. Crowe Treatise on Materials Science and Technology, Volume 28: Materials for Marine Systems and Structures provides an integrated approach, utilizing the environmental information of the ocean scientists, materials science, and structural integrity principles as they apply to offshore structures and ships. The book discusses the materials and their performance in marine systems and structures; the marine environment; and marine befouling. The text also describes marine corrosion; corrosion control; metallic materials for marine structures; and concrete marine structures. Materials for mooring systems and fracture control for marine structures are also considered. Professional scientists and engineers, as well as graduate students in the fields of ocean and marine engineering and naval architecture and associated fields will find the book useful. |
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Page 14
... steel is now commonplace. Iron barges were being built for use on inland ... steels were being used in ship building. Concrete has been used for over 2000 ... carbon-manganese steels of various grades. Also, reinforced and prestressed ...
... steel is now commonplace. Iron barges were being built for use on inland ... steels were being used in ship building. Concrete has been used for over 2000 ... carbon-manganese steels of various grades. Also, reinforced and prestressed ...
Page 15
... Steel alloys are usually selected as materials of construction because of their relatively low cost, ease of ... carbon equivalents. The carbon equivalent is an index which provides a means of assessing the weldability of steels based on ...
... Steel alloys are usually selected as materials of construction because of their relatively low cost, ease of ... carbon equivalents. The carbon equivalent is an index which provides a means of assessing the weldability of steels based on ...
Page 20
... steel alloy, as reflected in the C–C–T curve for the steel alloy. The carbon equivalent will therefore indicate the type of microstructural constituents to be expected in the HAZ. The undersirable microstructural constituent is ...
... steel alloy, as reflected in the C–C–T curve for the steel alloy. The carbon equivalent will therefore indicate the type of microstructural constituents to be expected in the HAZ. The undersirable microstructural constituent is ...
Page 24
... carbon steel, showed that decreasing the height, h, of the transverse double V weld reinforcement Reinforcement off >< 600 H. Sword N N. & <e. --~~ BASE METAL FATIGUE WELD BEAD CRACKs | *: BASE METAL < HAZ Fig. 14. Location of fatigue ...
... carbon steel, showed that decreasing the height, h, of the transverse double V weld reinforcement Reinforcement off >< 600 H. Sword N N. & <e. --~~ BASE METAL FATIGUE WELD BEAD CRACKs | *: BASE METAL < HAZ Fig. 14. Location of fatigue ...
Page 80
... carbon dioxide, sulfides, and the pH of the water are particularly sensitive to pollution (62). Many pollutants ... steel structures. The reverse can be true, however, if certain types of microorganisms are present in the water as ...
... carbon dioxide, sulfides, and the pH of the water are particularly sensitive to pollution (62). Many pollutants ... steel structures. The reverse can be true, however, if certain types of microorganisms are present in the water as ...
Contents
1 | |
35 | |
Chapter 3 Marine Biofouling | 89 |
Chapter 4 Marine Corrosion | 121 |
Chapter 5 Corrosion Control | 245 |
Chapter 6 Metallic Materials for Marine Structures | 277 |
Chapter 7 Concrete Marine Structures | 351 |
Chapter 8 Materials for Mooring Systems | 389 |
Chapter 9 Fracture Control for Marine Structures | 415 |
INDEX | 461 |
CONTENTS OF PREVIOUS VOLUMES | 471 |
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Common terms and phrases
addition AISI aluminum alloys anode applications atmosphere attack Austenitic behavior bronze carbon cast iron cathodic protection cause chloride coatings composition concentration concrete construction containing copper corrosion rates corrosion resistance coupled crevice corrosion decrease deep depth developed effect elements Engineering environment example exposure factors failure fatigue Figure force fouling fracture galvanic heat important increased indicated initiation inspection joint less limited loading low alloy steels marine marine structures materials measured mechanical metal methods nickel North occur ocean offshore operation organisms oxygen performance pitting platforms practice prevent problem produce properties reduce Report resistance ropes salinity seawater selection ships showed shown solution specimens stainless steels strength Stress Corrosion Cracking structure studies surface TABLE temperature tests titanium treatment Type usually wave weight weld zone