METALLISATION powders are available in formulations to suit all types of powder Flame snd Plasma &HVOF spray systems.
Particular attention is placed on the accuracy ando consistency of the particle size and sta dard requirements are available.
Powders are packaged in convenient 2kg non-spill pakastic bottles or 20-25 kg plastic or metal tubs.
All powders are identified by reference,part and batch number as wellas material type.
| REF.NO. | DESCRIPTIONP | TEXTURE/FINISH | MACRO HANDNESS | PROCESS |
| P315/06 | NiCrBSi Machinable Hardfacing Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Medium CoatingThickness-1.25-1.75mm(0.050"-0.070") Shrinkage-20% Finishing Allowance-100(0.004") | T=Medium T2=Smooth M=V/Good G=Excellent L=N/A | Rc30-35 | Thermal |
| P319/10 | NiCrBSi Hardfacing Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Wide CoatingThickness-3.0-3.75mm(0.125"-0.150") Shrinkage-20% Finishing Allowance-50-75(0.002"-0.003") | T=800-1000 T2=200-300 M=N/A G=8-10 L=2-3 | Rc55-60 | Thermal Plasma |
| P320/16 | NiCrBSi Hardfacing Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Wide CoatingThickness-1.25-1.5mm(0.050"-0.060") Shrinkage-17% Finishing Allowance-50-75(0.002"-0.003") | T=400-700 T2=200-300 M=N/A G=5-15 L=N/A | Rc57-60 | Thermal Plasma |
| P324/10 | NiCrBSi Hardfacing Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Narrow CoatingThickness-1.25-1.75mm(0.050"-0.070") Shrinkage-20% Finishing Allowance-50(0.002") | T=Fine T2=Smooth M=N/A G=Excellent L=N/A | Rc50 | Thermal |
| P325/10 | NiCrBSi Hardfacing Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Narrow CoatingThickness-1.25-1.5mm(0.050"-0.060") Shrinkage-17% Finishing Allowance-50(0.002") | T=Fine T2=Smooth M=N/A G=Excellent L=N/A | Rc62 | Thermal |
| P325/30 | NiCrBSi Hardfacing Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Narrow CoatingThickness-0.75-1.25mm(0.030"-0.050") Shrinkage-12% Finishing Allowance0.0015"-0.002" | T=Fine T2=Smooth M=N/A G=Excellent L=N/A | Rc60 | Thermal Plasma |
| P335/06 | NiCrBSi Hardfacing Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Wide CoatingThickness-3.0-3.75mm(0.125"-0.150") Shrinkage-20% Finishing Allowance-50-75(0.002"-0.003") | T=800-1000 T2=200-300 M=N/A G=8-10 L=2-3 | Rc60 | Thermal Plasma |
| P421/32 | NiCrBSi Hardfacing Alloy. Deposition by HVOF Coatings are extremely dense and semi fused in the as sprayed state. Bond Strength-83MPa(12000psi) Thickness Limitation-1.25(0.050") They may be fused as a post treatment to poduce a fully homogeneous coating.Smilar to P325/10 having a finer particle size. | T=300-400 T2= M=N/A G=7-10 L=2-3 | Rc50 | HVOF |
| P422/33 | (Wc-12Co)NiCrBSi Hardfacing Alloy. Deposition by HVOF Coatings are extremely dense and semi fused in the as sprayed state. Bond Strength-83MPa(12000psi) Thickness Limitation-1.25(0.050") They may be fused as a post treatment to poduce a fully homogeneous coating.Smilar to P505/30 having a finer particle size. | T=300-400 T2= M=N/A G=4-5 L=1-3 | Rc53 | HVOF |
| P505/30 | 50%Wc-12%Co Aggregate.Blended matrix of NiCrBSi Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Narrow CoatingThickness-0.5-0.625mm(0.020"-0.025") Shrinkage-12% Finishing Allowance-25-70(0.001"-0.003") | T=Fine T2=Smooth M=N/A G=6-8 L=1-4 | Matrix RC59-62 Carbide Rc75 | Thermal |
| P505/30P | 50%Wc-12%Co Aggregate.Blended matrix of NiCrBSi Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Narrow CoatingThickness-0.5-0.625mm(0.020"-0.025") Shrinkage-12% Finishing Allowance-25-70(0.001"-0.003") | T=Fine T2=Smooth M=N/A G=6-8 L=1-4 | Matrix RC59-62 Carbide Rc75 | Thermal |
| P515/03 | 35%Wc-8%Ni Aggregate.Blended matrix of NiCrBSi Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Narrow CoatingThickness-3.75-5.0mm(0.150"-0.200") Shrinkage-15% Finishing Allowance-50-100(0.002"-0.004") | T=800-1100 T2=80-150 M=N/A G=15-20 L=4-5 | Matrix RC58-60 Carbide Rc75 | Thermal |
| P531/06 | 35%Wc/Co Aggregate.Blended matrix of NiCrBSi Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Narrow CoatingThickness-1.25-1.5mm(0.050"-0.060") Shrinkage-20% Finishing Allowance-50-75(0.002"-0.003") | T=1000-1500 T2=150-250 M=N/A G=3-8 L=2-3 | Matrix RC62 Carbide Rc75 | Thermal |
| P532/06 | 80%Wc12%/Co Aggregate.Blended matrix of NiCrBSi Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. PlasticRange-Narrow CoatingThickness-1.25-1.5mm(0.050"-0.060") Shrinkage-20% Finishing Allowance-50-75(0.002"-0.003") | T=Medium T2=Smooth M=N/A G=5-10 L=2-3 | Matrix RC62 Carbide Rc75 | Thermal |
| P368/05 | CoNiCrBSi Alloy. Produces pore free coatings resistant toabrasivegrains,cavitation,fretting&corrositn. Specifically for use on 400 Series Stainless Steels snd other low shrink substrates. PlasticRange-Narrow CoatingThickness-1.25-1.75mm(0.050"-0.070") Shrinkage-20% Finishing Allowance-50-100(0.002"-0.004") | T=Medium T2=Smooth M=N/A G=5-10 L=2-3 | Rc50 | Thermal |
| P407/32 | COOPER99% Similar to P835/16 Having a finer particle size producing an extremely dense coating. Bond Strength-27.5MPa(4000psi) Thickness Limitation-3.125(0.125") | T=200-300 M=50-75 G=10-15 L=3-5 | Rb60 | HVOF |
| P835/16 | COOPER99%+ Prodeces non magnetic coatings having excellent electrical&thermal conductivity. Used for reclamationcof Copper & Copper based components | T=Medium M=Good G=N/A L=N/A | Rh60-85 | Thermal Plasma |
| P836/23 | NICKEL99.5% Prodeces coatings which are denese and readily machinable. Used for reclamationcof Nickel & Nickel based components | T=450-650 M=140-170 G=N/A L=N/A | Rb45-60 | Thermal Plasma |
| P836/33 | NICKEL99.5% As sbove, having, a finer particle size | T=300-500 M=100-150 G=N/A L=N/A | Rb70 | Thermal Plasma |
| P845/16 | ALUMINIUM99%+ Prodeces non magnetic coatings having excellent electrical&thermal conductivity, good corrosion & shock resistance & RFI shielding. | T=Fine M=Good G=N/A L=N/A | Rh40-50 | Thermal Plasma |
| P845/23 | ALUMINIUM99%+ As P845/16. Having narrower particle size range. | T=500-700 M=N/A G=10-20 L=N/A | Rh40-45 | Thermal Plasma |
| P899/25 | MOLYBDENUM99%+ Prodeces having resistance to electric arc erosion and molten iron, steel and copper. | T=500-700 M=100-150 G=6-8 L=N/A | Rc65 | Plasma |
| P405/33 | NICKEL CHRIME MOLYBDENUM IRON Similar to linconel625. Produces coatings resistant to oxidation up to 870. Bond Strength->69MPa(10000pis) Coating Thickness Limitation->1.25mm(0.050") | T=170-250 M=N/A G=8-10 L=N/A | Rc30-34 | HVOF |
| P406/33 | NICKEL CHRIME IRON MOLYBDENUM Similar to linconel718. Produces coatings resistant to oxidation up to 870. Bond Strength->69MPa(10000pis) Coating Thickness Limitation->1.25mm(0.050") | T=300-400 M=N/A G=8-12 L=N/A | Rc29-34 | HVOF |
| P446/16 | NICKEL CHRIME TUNGSTEN MOLYBDENUM Similar to linconel870/24. Produces coatings resistant to oxidation up to 875. They have low coefficient of friction giving excellent slicing wear resistance. Bond Strength->51.5MPa(7500pis) Coating Thickness Limitation->1.25mm(0.050") | T=300-500 M=N/A G=5-10 L=N/A | Rc38 | HVOF |
| P448/33 | NICKEL ALUMINIUM95/5 Produces coatings which are dense & resistant to oxidation up to 980. Bond Strength->62MPa(9000pis) Coating Thickness Limitation->6.25mm(0.250") | T=250-350 M=N/A G=40-60 L=N/A | Rc25 | HVOF |
| P615/10 | NICKEL CHROME ALUMINIUM Similar to p636/13. Produces coatings which are extremely dense &semi fused. Use for general reclamation of hard carbon steels & corrosio resistant steels. | T=600-900 M= G=15-30 L=4-10 | Rc23-30 | Thermal Plasma |
| P622/06 | NICKEL CHROME MOLYBDENUM ALUMINIUM Produces a'One Step" self bonding coating exhibiting high bond strength,interparticle adhesion & oxidation resistance. | T=400-800 M= G=10-20 L=2-5 | Rc30-35 | Thermal Plasma |
| P623/06 | NICKEL CHROME ALLOY/ALUMINIUM Produces coatings which are resistant to oxidation & corrosive gases up to 980. Used for undercoat to ceramics & for general reclamation of Nickel Alloys & corrosion resistanto steels. | T=300-500 M=30-40 G=10-15 L=N/A | Rb90 | Thermal Plasma |
| P626/06 | NICKEL CHROME MOLYBDENUM ALUMINIUM Iron Produces a machinable 'One Step" self bonding coating exhibiting high bond strength & low shrink. Resistanto toabrasive wear, fretting & particle erosion. | T=350-550 M=40-70 G=10-15 L=4-10 | Rb80 | Thermal Plasma |
| P627/16 | NICKEL ALUMINIUM MOLYBDENUM Produces a machinable 'One Step" self bonding coating exhibiting high bond strength & low shrink. Used for general wear resistance & for hard besring surfaces. | T=450-650 M=90-130 G=30-40 L=4-10 | Rb75 | Thermal Plasma |
| P635/15 | NICKEL ALUMINIUM80/20 Produces coatings resistant to thermal shock & oxidation up to 650. | T=Coarse M=Good G=N/A L=N/A | Rb75 | Thermal Plasma |
| P636/16 | NICKEL ALUMINIUM Produces a 'Self Bonding' dense coating whici is resistant to oxidation. Used mainly as a bond coat. | T=450-600 M=N/A G=12-14 L=N/A | Rb65-80 | Thermal Plasma |
| P636/16P | NICKEL ALUMINIUM As above. Exhibiting improved machinability. | T=450-600 M=25-40 G=N/A L=N/A | Rb65-75 | Thermal Plasma |
| P815/12 | NICKEL CHROME(80/20)ALLOY Produces coatings resistant to oxidation & corrosive gases up to 980. May also be used under ceramic coatings to resist oxidation. | T=400-700 M=Fair G=Good L=N/A | Rb90 | Thermal Plasma |
| P815/31 | NICKEL CHROME(80/20)ALLOY AS ABOVE Having a narrower particle range. | T=400-500 M=N/A G=5-15 L=N/A | Rb90 | Thermal Plasma |
| P815/35 | NICKEL CHROME(80/20)ALLOY AS ABOVE Very fine particle size range. | T=250-300 M=40-50 G=N/A L=4-6 | Rb95 | Plasma |
| P816/10 | NICKEL CHROME IRON ALLOY Produces a machinable stainless coating for general reclamation. | T=700-1000 M=50-70 G=20-25 L=N/A | Rb80 | Thermal Plasma |
| P855/10 | 316 STAINLESS STEEL Produces a machinable stainless steel coating resistant to wear and corrosion up to 540. | T=400-700 M=50-70 G=20-25 L=N/A | Rb90 | Thermal Plasma |
| P865/33 | 431 STAINLESS STEEL Produces low shrink coating with good wear resistant. | T=500-600 M=N/A G=20-30 L=N/A | Rc30-35 | Thermal Plasma |
| P870/24 | NICKEL CHROME TUNGSTEN MOLYBDENUM Produces coatings resistant to wear and oxidation up to 980. Bond Strength-48MPa(7000pis) Thickness Limitation-0.5mm(0.020") | T=500-700 M=N/A G=10-20 L=N/A | Rc40-45 | Plasma |
| P880/16 | NICKEL ALUMINIUM ALLOY Produces a 'Self Bonding' dense coating whici is resistant to oxidation. exhibitiong improved machinability. | T=500-700 M=100-150 G=6-8 L=N/A | Rb60-80 | Thermal Plasma |
| P408/33 | IRON CHROME MOLYBDENUM Resistant to wear and corrosion up to 650. Bond Strength-62MPa(9000pis) Thickness Limiyation-1.5mm(0.060") | T=250-350 M=8-12 G=4-6 L=N/A | Rc40-45 | HVOF |
| P628/07 | IRON ALUMINIUM MOLYBDENUM Produces a machinable 'One Step" self bonding coating exhibiting high bond strength & low shrink. Excellent wear & fretting resistance & for hard besring surfaces. Used for reclamation of grindable carbon steels. | T=600-800 M=40-60 G=10-20 L=4-10 | Rb85 | Thermal Plasma |
| P629/07 | IRON ALUMINIUM MOLYBDENUM Produces a machinable 'One Step" self bonding coating exhibiting high bond strength & low shrink. Excellent wear & fretting resistance & for hard besring surfaces. Used for reclamation of grindable carbon steels. | T=700-900 M= G=15-30 L=4-10 | Rc35 | Thermal Plasma |
| P652/08 | NICKEL IRON ALUMINIUM Produces dence high bond strength coatings resistant to oxidation up to 815. Exhibiting excellent machining qualities. | T=500-800 M= G=15-30 L=4-10 | Rb80-90 | Thermal Plasma |
| P850/10 | LOW CARBON STEEL Produces a general purpose coating which is readily machinable. Used for general reclamation on low carbon steel substrates. | T=Medium M=V/Good G=N/A L=N/A | Rb95 | Thermal Plasma |
| P865/10 | IRON CHROME NICKEL Produces a coating similar to 316 Stainless Steel, whichwork hardens & is readily machinable. | T=Medium M=V/Good G=N/A L=N/A | Rb90 | Thermal Plasma |
| P852/10 | NICKEL IRON ALUMINIUM Produces coatings slightly harder & denser than pure Alminium. Used for reclamation of Aluminium & Magnesium Alloy | T=600-800 M=40-60 G=N/A L=N/A | Rh92 | Thermal Plasma |
| P427/33 | COBALT MOLYBDENUM CHROME Similar to P868/33 Produces coatings having resistance to wear,corrosion & oxidation up to 980 Bond Strength-65MPa(9500pis) Thickness Limitation-0.5mm(0.020") | T=200-300 M=N/A G=4-6 L=N/A | Rc50-55 | HVOF |
| P854/23 | COBALT NICKEL CHROME TUNGSTEN ALLOY Produces coatings resistant to particle erosion, abrasive wear & fretting. Used on Cobalt & Cobalt Alloy components. | T=350-450 M=N/A G=10-15 L=N/A | Ra59-68 | Thermal Plasma |
| P854/35 | COBALT NICKEL CHROME TUNGSTEN ALLOY As above The particle size is finer producing coatings which are harder & have greater density. Thinner coatings should applied. | T=250-300 M=N/A G=4-8 L=N/A | Rc34 | Plasma |
| P866/32 | COBALT MOLYBDENUM CHROME ALLOY Produces coatings resistant to oxidation & wear up to 650. The corting may be post hest treated to 1175 to increse wear resistance & eliminate porosity. | T=200-240 M=N/A G=5-6 L=2-3 | Rc40 | Plasma |
| P868/33 | COBALT MOLYBDENUM CHROME ALLOY Produces coatings resistant to oxidation & wear up to 980. The corting may be post hest treated to 1175 to increse wear resistance & eliminate porosity. | T=250-350 M=N/A G=6-9 L=2-3 | Rc45 | Plasma |
| P404/32 | ALMIMIUN BRONZE Produces coatings resistance to wear & caviyation at low temperature. Used for soft bearing applications. Bond Strength-41MPa(6000pis) Thickness Limitation-0.625mm(0.025") | T=120-220 M=15-30 G=N/A L=N/A | Rb89 | HVOF |
| P830/06 | ALMIMIUN BRONZE Produces coatings resistance to wear & caviyation at low temperature. Used for soft bearing applications | T=Medium M=Excellent G=N/A L=N/A | Rb50 | Thermal Plasma |
| P830/31 | ALMIMIUN BRONZE As P830/06 Coatings are harder have less shrink & are both smoother &denser. Produces coatings resistance to wear & caviyation at low temperature. Used for soft bearing applications | T=500-600 M=30-100 G=N/A L=N/A | Rb85 | Plasma |
| P624/10 | ALMIMIUN BRONZE Produces Self Bonding 'one Step' coatings having high bond strength & low porosity. Used for soft bearing applications at low temperature giving excellent wear properties. | T=450-600 M=30-45 G=N/A L=N/A | Rb50 | Thermal Plasma |
| P857/23 | COPPER NICKEL ALOY Produces very dense low oxide coatings for resistance to fretting & cavitation. | T=400-600 M=30-35 G=10-20 L=2-3 | Rb65-72 | Thermal Plasma |
| P858/23 | COPPER NICKEL INDIUM As above. Used to resist fretting st low temperature. | T=400-600 M=15-20 G=10-20 L=2-3 | Rb65-72 | Thermal Plasma |
| P881/31 | MOLYBDENUM SELF FLUXING ALLOY BLEND Produces hard dense coatings resistance to wear from hard bearing surfaces fretting & particle erosion up to 540 | T=350-550 M=N/A G=10-12 L=4-6 | Rc50-55 | Thermal Plasma |
| P885/20 | MOLYBDENUM SELF FLUXING ALLOY BLEND Produces hard dense coatings resistance to wear from hard bearing surfaces fretting & particle erosion up to 345 | T=300-400 M=N/A G=20-25 L=8-16 | Rc40-45 | Thermal Plasma |
| P903/29 | MAGNESIUM ZIRCONATE/NICKEL CHROME ALLOY Produces coatings resistance to thermal shock. Used as an intermediate coating in a three part gradated coating system. | T=350-500 M=N/A G=N/A L=N/A | Rc35-40 | Plasma |
| P910/20 | 70%ALUMINA 30%NICKEL ALUMINIDE As a combined ceramic/metal the coatings are denser, stronger & more resistant than pure ceramics. Used as part of gradated coatings for high temperature protection of base materials & as abrasive coatings to run against abradable clearance coatings. | T=350-500 M=N/A G=N/A L=N/A | N/A | Thermal Plasma |
| P941/09 | ZIRCONIUM-MAGNESIUM OXIDE Coatings resistance to thermal shock. Used as an intermediate coating in a three part gradated coating system. | T=350 M=N/A G=N/A L=N/A | Ra63 | Plasma |
| P434/33 | CHROME CARBIDE 25(NI 20Cr) Produces coatings which are extremely dense & resistant to wear by fretting up to 815. Bond Strength-82MPa(12000pis) Thickness Limitation-0.625mm(0.025") | T=300-500 M=N/A G=15-20 L=N/A | Rc55 | HVOF |
| P435/33 | CHROME CARBIDE 7(NI 20Cr) Produces coatings which are extremely dense & resistant to wear by fretting up to 980. Bond Strength-72MPa(10500pis) Thickness Limitation-0.625mm(0.025") | T=200-250 M=N/A G=8-11 L=N/A | Rc53-57 | HVOF |
| P436/33 | CHROME CARBIDE 50(NI 20Cr) Produces coatings which are extremely dense & resistant to wear by fretting up to 815. Bond Strength-90MPa(13000pis) Thickness Limitation-0.5mm(0.020") | T=400-600 M=N/A G=4-6 L=N/A | Rc50 | HVOF |
| P437/33 | CHROME CARBIDE 20(NI 20Cr) Produces coatings which are extremely dense & resistant to wear by fretting up to 815. Bond Strength-90MPa(13000pis) Thickness Limitation-0.5mm(0.020") Tougher than P431/33 & P434/33 | T=100-170 M=N/A G=8-10 L=N/A | Rc65 | HVOF |
| P770/11 | CHROME CARBID This powder meets the requirements of PWA 1306 & GE B50TF39 Specifications. Pure Chrome Carbide is usually blended sith a matrix material. | T=500-750 M=N/A G=70-80 L=N/A | Rc37 | Plasma |
| P785/12 | 75%CHROME CARBIDE 25%NICKEL Produces coatings to resist wear by fretting, hard surfaces & abrasive grains up to 815. | T=400-500 M=N/A G=30-40 L=3-5 | Rc39 | Plasma |
| P785/35 | 75%CHROME CARBIDE 25%NICKEL As above. Having a finer particle size range. | T=250-350 M=N/A G=15-20 L=2-4 | Rc50 | Plasma |
| P930/27 | CHROME CARBIDE-NICKEL ALMINIUM Produces coatings which resistant to wear by abrasive grains,hard surfaces, particle erosion & fretting up to 820. | T=250-350 M=N/A G=20-40 L=N/A | Rc47 | Thermal Plasma |
| P423/33 | TUNGSTEN CARBIDE 12% COBALT Produces an exceptionally though coating to resist wear by fretting at low temperature. Bond Strength-83MPa(12000pis) Thickness Limitation-0.625mm(0.025") | T=100-150 M=N/A G=2-4 L=N/A | Rc64-66 | HVOF |
| P424/33 | TUNGSTEN CARBIDE 12% COBALT As above. | T=170-250 M=N/A G=2-4 L=N/A | Rc60 | HVOF |
| P425/35 | TUNGSTEN CARBIDE 17% COBALT Produces an exceptionally though coating to resist wear by fretting at low temperature. Similar to P735/31 Bond Strength-90MPa(13000pis) Thickness Limitation-0.625mm(0.025") | T=150-250 M=N/A G=2-4 L=N/A | Rc55-60 | HVOF |
| P426/38 | TUNGSTEN CARBIDE 17% COBALT Produces an exceptionally though coating to resist wear by fretting at low temperature. Similar to P424/33 Bond Strength-90MPa(13000pis) Thickness Limitation-0.625mm(0.025") | T=100-140 M=N/A G=2-4 L=N/A | Rc63-66 | HVOF |
| P715/23 | TUNGSTEN CARBIDE 12% COBALT Produces coating to resist wear by fretting at low temperature. Thickness Limitation-1.25mm(0.050") | T=300-500 M=N/A G=15-20 L=10-15 | Rc40 | Plasma |
| P715/35 | TUNGSTEN CARBIDE 12% COBALT As As above having finer particle size. Thickness Limiyation-0.5mm(0.020") | T=250 M=N/A G=7-8 L=2-4 | Rc53 | Plasma |
| P725/32 | TUNGSTEN CARBIDE 12% COBALT AGGREGATE Similar to above having a slight modification to the composition. | T=250-350 M=N/A G=7-8 L=1-3 | Rc50-55 | Plasma |
| P735/31 | TUNGSTEN CARBIDE 17% COBALT Produces coating to resist wear by fretting at low temperature. Thickness Limitation-0.375mm(0.015") | T=250-350 M=N/A G=10-18 L=2-3 | Rc50-55 | Plasma |
| P735/36 | TUNGSTEN CARBIDE 12% COBALT As above. Thickness Limiyation-0.25mm(0.010") | T=100-130 M=N/A G=10-15 L=1-2 | Rc55 | Plasma |
| P939/20 | TUNGSTEN CARBIDE 12% COBALT Aggregate(50%) Produces thin wear resistant coating which are self fusing. May be used on applications where Self Fluxing Alloys are not appropriate. Coating Thickness -0.375mm (0.015")max. | T=200-400 M=N/A G=15-25 L=2-4 | Rc46-50 | Plasma |
| P205/35 | GLEY ALUMINA 94% Produces coatings resistant to abrasion, cavitation,corrosion and molten Zinc,Copper & Aluminium | T=300-500 M=N/A G=35 L=N/A | Rc55 | Thermal Plasma |
| P205/39 | GLEY ALUMINA 96% A very fine version of the above. Thickness Limitation-0.5mm(0.020") Abrasive wear is considerably higher. | T=100-150 M=N/A G=10 L=2-4 | Rc65-67 | Plasma |
| P216/30 | ALUMINIUM OXIDE 87% TITANIUM DIOXIDE 13% Produces coatings having excellent wear & corrosion resistance up to 815. Thickness Limitation-0.5mm-0.625mm (0.020"-0.025") | T=250-350 M=N/A G=4-5 L=2-4 | Rc60-63 | Thermal Plasma |
| P216/38 | ALUMINIUM OXIDE 87% TITANIUM DIOXODE 13% A very fine version of the above. Thickness Limitation-037.5mm (0.015") | T=120-180 M=N/A G=6-800 L=1-3 | Rc70 | Plasma |
| P220/35 | ALUMINIUM OXIDE 87% TITANIUM DIOXIDE 13% Produces coatings having excellent wear & corrosion resistance up to 815. Thickness Limitation-0.5mm-0.625mm (0.020"-0.025") | T=90-360 M=N/A G=5-8 L=1-2 | Rc61-65 | Thermal Plasma |
| P255/30 | WHITE ALUMINA 98.5% Produces coatings having excellent wear & corrosion resistance up to 1650. Thickness Limitation-0.5mm-0.625mm (0.020"-0.025") | T=200-600 M=N/A G=45-80 L=N/A | Rc40-60 | Thermal Plasma |
| P255/40 | WHITE ALUMINA 99.5% Produces coatings having excellent wear & corrosion resistance up to 540. Thickness Limitation-0.5mm-0.625mm (0.020"-0.025") | T=50-200 M=N/A G=15-20 L=2-4 | Rc65 | Plasma |
| P225/20 | CHROME OXIDE 98% Produces coatings having excellent wear & corrosion resistance up to 540. Corrosive chemichal environments up to 200 Thickness Limitation-0.375mm-0.5mm (0.015"-0.020") | T=250-500 M=N/A G=15-35 L=2-8 | Rc65-70 | Thermal Plasma |
| P225/33 | CHROME OXIDE 99.99% A premium grade Chorome Oxide which does not exhibit free chorome. For use specifically in the printing indestry. | T=80-120 M=N/A G=5-10 L=1-2 | Rc98-74 | Thermal Plasma |
| P226/13 | CHROME OXIDE, SILICA TITANIUM DIOXIDE Produces coatings which can be applied to a Thickness of 2.5mm(0.100") for resistance to corrosion & wear up to 200 | T=350-400 M=N/A G=8-10 L=4-6 | Rc62-64 | Plasma |
| P226/30 | CHROME OXIDE, SILICA TITANIUM DIOXIDE As above. Thickness Limitation-0.625mm(0.025") | T=200-300 M=N/A G=15-20 L=2-4 | Rc62-72 | Thermal Plasma |
| P235/31 | TITANIUM DIOXODE 99% Produces coatings for resistance to wear by abrasive grains & hard surfaces to 540 Thickness Limitation-0.625mm (0.025") | T=300-400 M=N/A G=7-10 L=4-6 | Rc63 | Thermal Plasma |
| P245/12 | 8%YTTRIA STABILISED ZIRCONIA Produces an excellent Thermal Barrier coating for resistance to hot corrosion & overlay to a NiCrAlY bond coat. | T=450-600 M=N/A G=N/A L=N/A | Rc25-35 | Plasma |
| P245/23 | 8%YTTRIA STABILISED ZIRCONIA As above having a wider particle size range giving a more porous coating | T=300-400 M=N/A G=N/A L=N/A | Rc25-35 | Plasma |
| P246/22 | 20%YTTRIA STABILISED ZIRCONIA Produces hard dense coatings to resist thermal shock & particle erosion up to 1650. Coatings are applied over a bond coat pf P623/06 | T=250-500 M=N/A G=N/A L=N/A | Rc35-40 | Plasma |
| P265/25 | 93%ZIRCONIUM OXIDE A general purpose soft Thermal Barrier used on crucibles to resist the moltencontens. | T=250-600 M=N/A G=N/A L=N/A | Rc25 | Plasma |
| P265/31 | 93%ZIRCONIUM OXIDE As above. May be Thermally sprayed allowing athicker coating. | T=250-600 M=N/A G=N/A L=N/A | Rc25 | Thermal Plasma |
| P275/31 | 24%MAGNESIUM OXIDE ZIRCONIUM OXIDE As above. Produces a slightly more porous coating. | T=350-450 M=N/A G=50-70 L=N/A | Rb95 | Thermal Plasma |
| P105/12 | ALMINIUM BRONZE POLYESTER 90/10 Produces coatings to resist wear from fretting at low temperature. Bond Strength-13.8MPa(2000pis) Thickness Limitation-0.625mm(0.025") | T=600-800 M=80-90 G=N/A L=N/A | R15y65-85 | Plasma |
| P106/09 | ALUMINIUM POLYESTER Produces an abradable clearance coating for use up to 345. | T=Fine M=Good G=N/A L=N/A | R15y68-78 | Plasma |
| P960/08 | ALUMINIUM GRAPHITE Produces an abradable clearance coating for use up to 480. Similar to the above but having less abradability. | T=Fine M=N/A G=Good L=N/A | R15y50-70 | Thermal Plasma |
| P961/01 | SILICON/ALUMINIUM 30%GRAPHITE Produces an abradable clearance coating for use up to 425. | T=650-850 M=200-300 G=N/A L=N/A | R15y55-75 | Plasma |
| P963/04 | ALUMINIUM / GRAPHITE 40/45 Similar to above, more abradable than P955/18 & more erosion resistant than P960/08. | T=700-800 M=100-200 G=N/A L=N/A | R15y55-80 | Plasma |
| P901/06 | BORON NITRIDE NICKEL CHROME CERMET Produces an abradable clearance coating for temperature range 540- 815 | T=1200 M=800 G=N/A L=N/A | R15y40-50 | Thermal |
| P955/18 | NICKEL GRAPHITE 75/25 Produces an abradable clearance coating for use up to 480 More abradable but less erosion resistant than P958/18. Specifications: PWA 1352-1 GE B50TF52 Class B | T=100-1300 M=500-600 G=N/A L=N/A | R15y30-50 | Thermal |
| P955/19 | NICKEL GRAPHITE 75/25 As above. Slightly tighter particle size. Specification: MSRR 9507/6 | T=500-800 M=250-400 G=N/A L=N/A | R15y30-50 | Thermal |
| P958/18 | NICKEL GRAPHITE 75/25 Produces an abradable clearance coating for use up to 480 Specifications: PWA 1352-2 GE B50TF53 Class B | T=1000-1200 M=400-500 G=N/A L=N/A | R15y50-70 | Thermal |
| P959/10 | NICKEL GRAPHITE 80/20 Produces a coating having abradability & erosion resistance between P955/18 & P958/18 | T=1100-1300 M=500-600 G=N/A L=M/A | R15y40-60 | Thermal |
| P962/03 | NICKEL CHROME ALUMINIUM BENTONITE Produces an abradable clearance coating for use up to 815 | T=1200-1700 M=650-850 G=N/A L=N/A | R15y55-65 | Thermal |
| P964/02 | NICKEL CHROME ALUMINIUM BENTONITE Similar to P962/03 having a slightly coarser particle size range. | T=1200-1700 M=650-850 G=N/A L=N/A | R15y55-65 | Thermal |
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