What is Powder Coating?

Technical Write up by Dr E Ramanathan

Powder coating Training Notes

WHY POWDER COAT ?

• Produces a hard, abrasion resistance & tough coating
• Can be applied over a wide range of thicknesses (20-25 mils/500-600 microns)

WHAT IS POWDER COATING

“A mechanical mixture of resin, pigments & hardening agents in powdered form, when applied on to a surface as a thin/thick layer, forms an adherent film after curing”.

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CONSTITUENTS OF POWDER COATING

• Powder coating is composed of finely ground particles of:
• Resins: key component
• Thermosetting, Most suitable for thin coating. (Epoxy, Polyester, urethane, Acrylics, etc) & Thermoplastic, Most suitable for thick coating. (PVC, Polyehylene, Polypropylene, nylon, etc)
• Good resistance to chemicals
• Low shrinkage during curing

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CONSTITUENTS OF POWDER COATING

• Pigment: Titanium dioxide, Carbon black, Zinc oxide, etc.
• Provides desired colour & opacity
• Protects from UV-light
• Improves impermeability to moisture
• Fillers: Barytes, French chalk, Talc, Whiting, etc
• Fills voids
• Reduces the cost

• Degassing agent:
• Eliminates gas bubbles
• Accelerators: Copper salts, etc
• Enhances the rate of slow reaction
• Dry flowing agents: Poly acrylates, silicone, fludised alkyl esters, etc
• Improves free flow of powders
• Waxes: –Provides slip

MANUFACTURING POWDER PAINT

• The dry ingredients in exact amounts are blended at high speed to create a homogeneous mixture & heated to the resin melting temp in an extruder.
• The extruded mixture is then cooled & rolled before being broken into small chips.
• The chips are milled to a very fine size ( Average diameter of powder particle varies in between 30-50 micron) & packed.
• Each individual powder particle contains the entire coating formulation.

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COMPRESSED AIR DATA

• Requires good quality of compressed air, free of oil & moisture.
• Pressure ——————- –4 to 5 kg/cm2
• Max. moisture content—-1.4 gm/m3
• Max. oil content———–0.1 ppm

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POWDER COATING PROCESS

Basic steps:-

• Surface preparation
• Application of powder
• Curing
• Recovery of powder

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SELECTION OF GUN ATTACHMENT & RIGHT POWDER

• No perfect tip for all applications.
• Extension lances help to get into recessed areas.
• Unwanted areas to be covered with high temp tape specially designed for powder coating.
• Right powder to be chosen as per the end use of the component.

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BASIC POWDER COATING PROCESS – Four basic processes:-

• Electrostatic spraying
• Fluidised bed
• Electrostatic fluidised bed
• Flame spray
• Electrostatic spraying is the most commonly used

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OPERATIONAL PROCEDURE OF POWDER COATING

• Ensure proper earthing to the equipment.
• Put powder into the hopper.
• Connect the equipment to the main air supply.
• Switch on the power supply.
• Direct the gun into the spray booth & press the trigger.
• Adjust the fluid bed air pressure to 4-5 kg/cm² till the powder in the hopper appears to ‘boil’.
• Don’t keep higher pressure than necessary otherwise powder may ‘puff’ out the gun.

*By increasing dosing air, powder speed will increase, cloud density is reduced. By reducing dosing air, powder speed will reduce, cloud density will increase.

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ELECTROSTATIC SPRAYING

• An electrical charge is applied to the dry powder particles while the component to be painted is electrically grounded.
• The charged powder & grounded work piece create an electrostatic field that pulls the paint particles to the work piece.
• The coating deposited on the work piece retains its charge, which holds the powder to the work piece.
• The powder coated work piece is placed in a curing oven, where the paint particles are melted on to the surface & the charge is dissipated.
• The gun gives +ve electrical charges on the powder particles by frictioning between them & non- conductive material (air).

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ADDITION OF VIRGIN POWDER

• Virgin powder should be added frequently to the powder hopper because, recycled powder will always have properties that differ from virgin powder.
• In order to maintain a constant composition, always keep the volume of re-used powder to minimum.
• To reduce variations in particle size distribution due to recycling.

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CURING

• The curing process requires a certain degree of temp for a certain length of time in order to reach a full cure.
• Temp…………….180-2000C
• Curing time……45 minutes.
• The application of energy to the product to be cured can be accomplished by:-
• infrared cure ovens (direct exposure to light in the range of IR-region)

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RECOVERY OF POWDER

• Powder coating booth is equipped with powder recovery cyclone and filter.
• It recovers as much as 98% of powder exhausted from the booth.
• Recovered powder is progressively re-used.
• After filter, filters fine powder of powder recovery cyclone and virtually no powder goes to atmosphere.

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POWDER COATING STORAGE CONDITION

• Powder coating must be:-
  • flowing easily
  • capable of maintaining a good electrostatic charge.
• Proper storage is essential as it:-
  • prevents particles agglomeration
  • ensures satisfactory application.

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FACTORS AFFECTING POWDER STORAGE CONDITIONS

• Temperature
• Humidity
• Contamination
• Direct sunlight

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Recommended optimum conditions:-

• Temperature ………………………….250C (Approx).
• Relative humidity…………………….50 to 65 %.
• Away from direct sunlight.

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SAFETY & HEALTH

• Powder & air mixtures can be a fire hazard when an ignition source is introduced.
• The concentration of powder in air must be controlled to maintain a safe working.
• Any finely divided organic material, such as dust, can form an explosive mixture in air.
• Personal cleanliness should be maintained at all times (soap & water clean up to remove powder from the skin)
• Don’t use air blast nozzles to blow off powder from the skin.
• Disconnect the main power supply before cleaning or maintaining the gun
• Operator should hold the gun in his bare hands.
• Avoid inhalation of the powders.
• Use proper PPE

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ADVANTAGES OF POWDER COATING

• Releases zero or negligible amounts of VOC into the atmosphere, resulting in minimal air pollution.
• Easy recycling of over sprayed powder for reuse
• Provides a superior finish, greater durability, improved corrosion resistance.
• Lower raw material (powder) costs.
• Unlimited colour selection with high & low gloss.
• Easy to apply thick coatings
• Requires minimum operator training & supervision
• Parts can be racked closer together.

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DISADVANTAGES OF POWDER COATING

• Application of large areas not feasible.
• Coating touch up not possible.
• Difficult to apply intricate shapes & assembled components
• Can be more prone to orange peel.
• Difficult to apply thin coats (< 1.0 mil) .

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REMOVING POWDER COATING

• Methylene Chloride is most effective.
• NB: Most recently the suspected human carcinogen Methylene Chloride is being replaced by benzyl alcohol with great success.
• Organic solvents such as Acetone, Thinners, etc, are completely ineffective.
• Can be removed by abrasive blasting.
• Can be removed by using 98% commercial grade Sulphuric acid.