Selecting Coatings Under Insulation - PowerPoint PPT Presentation

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Selecting Coatings Under Insulation

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... waterproofing materials and insulations should be used * Learning Outcomes This webinar will discuss: Basic Control of Corrosion Under Insulation Coating ... – PowerPoint PPT presentation

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Title: Selecting Coatings Under Insulation


1
Selecting Coatings Under Insulation
  • Presented by Brent W. Griffin, SME On behalf
    of SSPC.

2
Learning Outcomes
  • This webinar will discuss
  • Basic Control of Corrosion Under Insulation
  • Coating Selection Considerations for Metals Under
    Insulation
  • Types of Coatings Applied to Metals Under
    Insulation

3
Introduction
  • Corrosion under insulation is a major problem.
    When insulation becomes wet it creates the
    potential for corrosive failure of the structure.
    Whether the structure is above ground or buried,
    proper design and installation technique can
    control corrosion

4
Introduction
  • For a corrosion under insulation system to be
    successful and not contribute to the corrosion
    process, it must be specified in the following
    manner
  • Use a corrosion control coating
  • Taylor the insulation to the application and
    environment
  • Calculate adequate insulation thickness
  • Apply a superior vapor barrier
  • If necessary, install a mechanical jacket

5
Basic Corrosion Control
  • Metal corrosion requires 4 elements
  • Anode
  • Cathode
  • Electrolyte
  • Electrical Path

6
Anode
  • The electrode of an electrolytic cell at which
    oxidation occurs
  • Electrons flow away from the anode in the
    external circuit
  • It is usually at the anode that corrosion occurs
    and metal ions enter solution

7
Cathode
  • The electrode of an electrolytic cell at which
    reduction is the principal reaction
  • Typical cathodic processes are cations taking up
    electrons and being discharged, oxygen being
    reduced, and the reduction of an element or group
    of elements from a higher to a lower valence state

8
Electrolyte
  • A chemical substance or mixture, usually liquid,
    containing ions that migrate in an electric field
  • A chemical compound or mixture of compounds which
    when in solution will conduct an electric current.

9
Electrical Path
  • A connection between the anode and cathode where
    current in the form of electrons can flow

10
Basic Corrosion Control
  • The corrosion of metals requires the following
    conditions
  • An anode, a cathode, an electrical path and an
    electrolyte must all be present
  • The anode and cathode must be in contact with the
    same electrolyte
  • The metal must electrically connect the anode and
    cathode for electrons to flow
  • The anodic (oxidation) and cathodic (reduction)
    reactions must be equivalent and simultaneous

11
Basic Corrosion Control
  • One of the most effective ways to control
    corrosion is to use a properly selected and
    applied corrosion coating

12
Coating Selection Considerations
  • The proper selection of coating materials is
    important. When selecting coatings for metals
    under insulation, consider
  • System operating temperatures
  • Application and site requirements
  • Surface preparation requirements
  • Compatibility with insulating materials

13
System Operating Temperatures
  • A coating has to be flexible enough to withstand
    the expansion and contraction of the piping
    system when temperatures cycle

14
Temperature Fluctuations
  • Can cause a loss of adhesion between the coating
    and metal, which allows water to reach the pipe
  • High temperatures can cause coatings to flow,
    crack or sag
  • Low temperature can cause coatings to become less
    flexible or brittle

15
Application Requirements
  • Liquid coatings can be applied by
  • Brush
  • Glove
  • Spray Method (Airless or Plural component)
  • Tape coatings can be applied in a cigarette
    wrap or by spiral wrapping

16
Surface Preparation
  • Most critical part of any coating process
  • The type of surface to be coated dictates the
    type of surface preparation and coating to be
    used
  • Carbon Steel
  • Stainless Steel

17
Carbon Steel
  • New carbon steel can be cleaned and blasted
    easily, compared with corroded or pitted steel in
    used systems
  • Corroded or used metal systems may have surface
    contaminants such as chlorides or salts that must
    be properly removed before blasting

18
Stainless Steel
  • Very hard, making it difficult to create a
    profile
  • Should not be blasted with steel grit or shot
  • Causes corrosion problems
  • Non-carbon blast materials, brushes or grinding
    disks should be used

19
Removal of Contaminants
  • Before surface preparation any oil, grease or
    other debris must be properly removed
  • SSPC-SP 1, Solvent Cleaning
  • Chlorides and other salts must be removed by
    proper washing and rinsing techniques
  • SSPC Guide 15, Field Methods for Retrieval and
    Analysis of Soluble Salts on Steel and Other
    Nonporous Substrates

20
Compatibility with Insulating Material
  • Coating selection and insulation characteristics
    should be considered jointly when specifying a
    system

21
Types of Coatings
  • Types of coating choices on the market include
  • Epoxies
  • Urethanes and Polyureas
  • Tape and Shrink Sleeves
  • Powder Coatings
  • Brushable Coal Tar or Asphalt Based Corrosion
    Coatings
  • Mineralization Coatings
  • Thermal Sprayed Metallic's -TSA

22
Epoxies
  • Epoxies are two component and applied by spray or
    brush
  • Must be mixed at proper ratio!
  • Phenolic epoxies are excellent for higher
    temperature applications (up to 450F)
  • Applied by plural component using heated hoses,
    Airless Conventional
  • Modified epoxy phenolics offer good abrasion
    resistance and are more flexible, Novolac or
    immersion grade are excellent

23
Urethanes and Polyureas
  • Excellent coatings for cold process piping and
    vessels
  • Limited use for higher temperature operations at
    greater than 150F
  • Flexible and can be applied in one thick coat
    with plural component equipment
  • Moisture-cure urethanes perform well for
    applications where moisture is a problem

24
Tape and Shrink Sleeves
  • Provide excellent corrosion protection for pipes
    on systems that operate at temperatures of 150F
    or less
  • Require a primer in order to adhere properly
    Surface prep is key
  • Vary from 25-100 mils in thickness
  • Insulation material must have the proper ID to
    enable that insulation fits over the tape

25
Tape Coatings
  • Will affect the inner diameter (ID) and the fit
    of the insulation
  • Some tapes are applied using heat (propane torch)
  • There is skill and proper technique required for
    appl.

26
Powder Coatings
  • Applied to a hot surface (normally 450- 488 F)
  • Applied in a specialized pipe coating plant with
    temperature and humidity control

27
Asphalt or Coal-Tar Based Materials
  • Applied by brush or paint glove
  • Surface preparation requirements are not as
    stringent
  • Good for irregular shapes
  • Are flexible, adhere well, resistant to most
    chemicals, can be repaired easily, has fair
    abrasion and impact resistance
  • At low temperatures (below 0F) coating may be
    less flexible
  • At high temperatures (above 120F) coating may
    become soft or tend to run

28
Mineralization Conversion Compounds
  • The ability to grow very thin minerals on metal
    surfaces for useful purposes
  • Developed to deliver the mineral forming
    reactants in a variety of formulations
  • Paints, coatings, synthetic gels, greases, thread
    dressing, sealants, adhesives and water gels
  • Reduces the amount of surface preparation
    required before installing the coating

29
Mineralization Conversion Compounds
  • Effective on systems at temperature ranges from
    -50F to 250F
  • If vapor barrier is compromised and moisture
    enters the system, it can travel directly to the
    pipes surface and remain there without corrosion
    taking place

30
Mineralization Conversion Compounds
  • The excess coating from the installation process
    chemically binds the water (buffering it) so that
    it cannot corrode the pipe

31
Compatibility with Insulating Material
  • Some types of insulating materials may be
  • Abrasive
  • Cause the coating to deteriorate (become soft or
    brittle)
  • React with the corrosion coating prior to the
    coating curing
  • Typically coating is cured prior to installing
    the insulation

32
Insulation
  • The insulations used for above freezing yet below
    ambient piping are quite broad including
  • Fiberglass
  • Elastomeric plastics
  • Elastomeric rubber
  • Mineral wool

33
Insulation
  • Insulation for subzero applications are
  • Polyisocyanurates
  • Polystyrenes
  • Cellular glass
  • Phenolics

34
Insulation Thickness
  • Worst-case atmospheric job conditions should be
    used when calculating insulation thickness

35
Vapor Retarders and Protective Jackets
  • Protect vapor barrier from physical abuse
  • They include products such as
  • ASJ paper
  • FSK paper
  • Vapor barrier mastic
  • Mylars
  • Proprietary polymers
  • Laminated self-adhesive membranes
  • Low perm, peel-and-stick, self-healing vapor
    barrier membranes

36
Conclusion
  • Through testing, proper selection of materials
    and methods and well-written and detailed
    specifications, tremendous improvements can be
    made in controlling corrosion under insulation.

37
Conclusion
  • The following suggestions are recommended for
    industry
  • The industry must be committed to preventing
    corrosion
  • Testing and insulation specifications must be
    developed and must outline specific coating
    systems for each application
  • Inspection and testing must be performed
  • Appropriate vapor barriers, waterproofing
    materials and insulations should be used
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