Marine Materials
-Materials for marine applications are selected to maintain the integrity of the structure (i.e. to be sufficiently robust withstand their service environment) and to be corrosion resistant. -Stainless steels for example are used in marine applications because they are resistant to corrosion, easily fabricated and offer good mechanical properties. |
S. |
Format |
Type |
Title |
Ed. |
Scope |
Author(s) |
Availability |
1 |
|
S |
2012 |
This standard gives criteria and recommendations on concept development, design, construction, operation and abandonment of Submarine Pipeline Systems. |
DNV |
Upon Request |
|
2 |
|
S |
N/A |
The scope of this standard is to provide general principles, engineering guidance and requirements for material selection and corrosion protection for all parts of offshore installations. |
Norsok |
Upon Request |
|
3 |
|
Paper |
N/A |
The present project was undertaken to determine the actual state of knowledge of the effect of seawater on a large class of materials and components, by uncovering and assembling ail available information. The choice of materials to be covered was dictated by interest in structures or systems intended either to be placed on the ocean floor or to be moored fully submerged and by interest in marine rescue and salvage operations. Hence materials which are primarily associated with shoreline facilities, such as wood and concrete, are not included. Likewise, the topic of marine foaling itself, as distinct from the possible damage to materials by the fouling organisms, is not covered.t |
L.A. Beaubien, I. Wolock, and C.L. Buchanan |
Upon Request |
|
4 |
|
Paper |
N/A |
In this paper, investigations performed in natural and artificial seawater on stainless steels will be presented. They concerned studies on: biofilm formation, passive layers composition, electrochemical behaviour, localised corrosion and the evolution of these different parameters as a function of ageing time. According to literature surveys, the different aspects will be discussed. Some conclusions will be drawn concerning the actual knowledge on the behaviour of stainless steels in seawater. |
Compere C. Le Bozec N. |
Upon Request |
|
5 |
|
GL |
Commentary on CSA Standard Z662-03, Oil and Gas Pipeline Systems |
2003 |
CSA Z662 (hereafter in this Commentary also referred to as “the Standard” or “Z662”) presents a collection of requirements for oil and gas pipeline systems to describe what has been accepted as good practice from the standpoint of safety. The requirements have been developed over time, based upon industry experience and knowledge of the scientific principles involved Refer to chapter 11 |
Canadian Standard Association |
Upon Request |
6 |
|
GL |
2010 |
Stainless steels have properties which make them attractive choices for a wide range of applications. Many grades have been developed over the years; these forma rich tapestry of alternatives, with grades optimized to offer cost-effective solutions to many of the problem environments in industrial, marine, construction and transport applications. |
Peter Moore |
Upon Request |
|
7 |
DOCX |
GL |
Selection of 316, 304 and 303 types of stainless steels for seawater applications |
N/A |
The following topics are discussed in this document (Factors governing the corrosion resistance of 316 types in seawater, composition , mechanical, physical properties and applications of 316L stainless-steel) |
N/A |
Free |
8 |
|
Catalogue |
N/A |
This document discusses JFE Steel plates ,manufacturing, mechanical properties and applications that are being used in various industry |
JEF |
Free |
|
9 |
|
Presentation |
N/A |
This Presentation is intended to give an overview on the selection of materials in the sea water systems |
N/A |
Free |
|
10 |
PPT |
Presentation |
2016 |
This Presentation gives an outline to the Front-End Engineering Design (FEED) for Wellhead Topsides, Manifold Platform, PS3 Modifications, Flowlines |
Worley Parsons |
Free |