Surface treatment an overview
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Transcript of Surface treatment an overview
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Major Surface TreatmentsFinishing and Polishing Coatings
Conversion Coatings (oxidation, anodizing)Metal Coatings (electrochemical, electroless)Thermal Coatings (carburizing – flame spraying)Deposition
Physical Vapor Deposition Chemical Vapor Deposition
Organic Coatings
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Finishing and PolishingBlast Finishing
Shot Peening
Tumbling
Buffing
Chemical Polishing
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Conversion CoatingsA conversion coating is a coating produced by chemical
treatment of a metallic surface that gives a superficial
layer containing a compound of the metal
Oxidation
Phosphate Coatings
Chromate Coating
Various Coloring Processes
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Conversion Coatings - Oxidation
OxidationNot all oxides are detrimental – many are tightly
adhering leading to passivation and hardening of surface
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Conversion Coatings - OxidationBlack Oxide – chemical application
Typically applied to steel, copper and stainless steel
Anodizing – electrochemical conversion
Usually done to Aluminum
2-25 mm thick typically
Multiple colors possible
Improved Corrosion and Wear Resistance
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Conversion Coatings – Phosphate Coating
Immersion in a Zn-P bath with Phosphoric acid causes growth
of a crystalline zinc phosphate layer
Iron, Zinc or Manganese Phosphate layer
Primarily this is used as a base for subsequent painting and it
also serves as corrosion protection coating
Typically applied to C-steel, low alloy steel and cast irons
Sometimes applied to Zinc, Cadmium, Aluminum and Tin
Typically very thin ~ 2.5 micron
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Metal CoatingsElectroplating
Electroless Plating
Immersion Plating
Metallizing of Plastics and Ceramics
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Metal Coatings - Electroplating
Used to increase wear and corrosion resistance
Electrochemical process used to create a thin coating
bonding to substrate
Process is slow so coating thickness can be closely
controlled (10-500 mm)
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Metal Coatings - Electroplating
ApplicationsTin and Zinc are deposited on steel for further
workingZinc and Cadmium are deposited on parts for
corrosion resistanceCopper is deposited for electrical contactsNickel for corrosion resistanceChromium can be used to impart wear resistancePrecious metals for decoration or electronic devices
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Metal Coatings – Electroless Coatings
Part is submerged into an aqueous bath filled with metal
salts, reducing agents and catalysts
Catalysts reduce metal to ions to form the coating
Excellent for complex geometries as deposition is
uniform across surface regardless of geometry (except
very sharp corners (0.4 mm radii))
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Metal Coatings – Immersion Plating
Deposition of a metallic coating on a substrate by
chemical replacement from a solution of a salt of the
coating metal
It differs from electroless plating in not requiring a
chemical reducing agent; the substrate metal itself act as
a reducing agent,
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Thermal TreatmentsSurface Heat Treatment
Diffusion Coating
Hot-Dip Coatings
Weld Overlay Coatings
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Thermal Treatments – Surface Heat Treatment
Basic concept is to heat the surface to austenitic range, then quench it to form surface martensite - workpiece is steel
Heating MethodsFlame TreatmentInduction Heating
Copper coil wraps around part to heat by inductionElectron Beam or Laser Beam Hardening
Typically heat small area and allow the bulk solid heat capacity to quench the small heated area
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Thermal Treatments – Diffusion CoatingWith low carbon steel, the surface can be enriched by
diffusion of C or N into surface Carburizing Nitriding
Metal DiffusionChromizing – Chromium diffuses into surface to
form corrosion resistant layer. Take care with carbon steels as surface will
decarburizeAluminizing – Used to increase the high
temperature corrosion resistance of steels and superalloys
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Thermal Treatments – Hot-Dip Coatings
These coatings are used for corrosion protection
Galvanizing
Parts are dipped into a molten zinc bath
Galv-annealing
Galvanized parts are then heat treated to ~500 ºC to form
Fe-Zn inter-metallic
Used for metals that need spot welded to protect copper
electrode from alloying with zinc and reducing its life
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Vapor DepositionChemical Vapor Deposition (CVD)Physical Vapor Deposition (PVD)
Thermal PVDSputter DepositionIon plating
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Chemical Vapor DepositionDeposition of a compound (or element) produced by a
vapor-phase reduction between a reactive element and
gas
Process typically done at elevated temps (~900ºC)
Coating will crack upon cooling if large difference in
thermal coefficients of expansion
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Chemical Vapor DepositionApplications
Diamond Coating, Carburizing, Nitriding, Aluminizing
and Siliconizing processes
Semiconductor manufacturing
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Organic Coatings - paint
Enamels
Lacquers
Water-base paints
Powder Coating