Materials for Marine Systems and StructuresDennis F. Hasson, C. Robert Crowe |
From inside the book
Results 1-3 of 76
Page 57
... concentration of any ion , x , from Table III at a salinity other than 35 % can be calculated from the following relationship : ( Concentration of ion y at salinity S ‰% ) = χ ( Concentration of x at 35 % salinity × ( S % ) / ( 35 ...
... concentration of any ion , x , from Table III at a salinity other than 35 % can be calculated from the following relationship : ( Concentration of ion y at salinity S ‰% ) = χ ( Concentration of x at 35 % salinity × ( S % ) / ( 35 ...
Page 101
... concentration of chlorine in the water and the intensity of the turbulence . The concentration of chlorine in the bulk water is a function of not only the amount of chlorine added to the water , but also the chlorine demand of the water ...
... concentration of chlorine in the water and the intensity of the turbulence . The concentration of chlorine in the bulk water is a function of not only the amount of chlorine added to the water , but also the chlorine demand of the water ...
Page 218
... concentration , the sulfide promotes pitting ; whereas , at higher concentration , high rates of general attack are observed . Data showing the corrosion rates of several copper alloys in polluted and unpolluted seawater are given in ...
... concentration , the sulfide promotes pitting ; whereas , at higher concentration , high rates of general attack are observed . Data showing the corrosion rates of several copper alloys in polluted and unpolluted seawater are given in ...
Other editions - View all
Common terms and phrases
AISI aluminum alloys anode applications Austenitic Austenitic cast iron bacteria biofilm biofouling bronze C(PR carbon steel cathodic protection chemical chlorine coatings composition concentration concrete copper alloys corrosion behavior corrosion rates corrosion resistance crevice attack crevice corrosion decrease deep ocean developed dissolved oxygen effect Engineering erosion-corrosion exposure factors failure fatigue film fouling fracture control galvanic corrosion galvanic coupling galvanic series heat treatment high strength HSLA hydrogen immersed increased inspection intergranular intergranular corrosion ions joints loading low alloy steels macrofouling marine atmospheres marine environments marine structures Martensitic materials mechanical metal surface microbial microorganisms Naval nickel North Sea occur offshore platforms Offshore Structures organisms oxidation oxygen content P(PR Pacific Ocean polluted prestressed Reinhart ropes S-N curve salinity seawater selection ship shown in Figure specimens stainless steels Stress Corrosion Cracking sulfide Table temperature tests titanium alloys Type velocity weight weld wind zinc
References to this book
Fatigue in Composites: Science and Technology of the Fatigue Response of ... Bryan Harris Limited preview - 2003 |