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Thermal spray powders

Aluminum Based

Nominal Chemistry

Powder   Name

Size

Spray Process

Application Data

Aluminum

Atomized

 

 

99.0 min

 

 

AL 20

-170/+325 mesh

-90 µm/+45 µm

FP

Corrosion protection coating

Good for repair of Al based parts

Very dense coating

Good for electrical conductivity

Al-12 Si

Atomized

 

 

 

 

Si 12.0

Al Rem

 

 

 

 

AL 35

-170/+325 mesh

-90 µm/+45 µm

FP

Good for repair of Al and Mg based parts

Harder and denser than pure Al

AL 55

-325 mesh/+5 µm

-45 µm/+5 µm

FP

Cobalt Based

 

 

 

CoCrNiW

STELLITE 31F

 

 

 

 

 

 

Cr 25.5

Ni 10.5

W 7.5

Co Rem

 

 

 

 

STELLITE 31F

 

 

-270mesh/+20µm

-53 µm/+20 µm

FPH

Excellent oxidation resistance

Replaces WC in high temperature applications

Smooth as sprayed coating

Suited for repair of Co based parts

STELLITE 1

STELLITE Spray Fuse

 

 

 

Cr 30

W 12,5

C 2,5

Si 1

Co Rem

STELLITE 1

STELLITE SF1

 

F

CoCrWSiC

STELLITE 6

(Similar to

Co Alloy 6)

Atomized

Cr 28.0

W 4.0

C 1.2

Si 1.0

Co Rem

STELLITE 6 JET

-270mesh/+20µm

-53 µm/+20 µm

 

PH

Excellent wear properties

Produces hard, dense coatings

High temperature wear  and corrosion

properties

STELLITE 12

STELLITE SF12

 

 

Cr 29

W 4

C 1,9

Si 1,4

STELLITE 12

STELLITE SF12

STELLIT 12 JET

 

FPH

Resistance to abrasion, erosion and

adhesion to high temperature

CoMoCrSi

(Similar to

Tribaloy® 400)

Atomized

 

Mo 28.5

Cr 8.5

Si 2.6

Co Rem

 

T400

-325mesh/+10µm

-45 µm/+10 µm

 

FP

Intermetallic Laves phases provide excellent wear properties from room temperature to 1500°F(816°C)

Good hot hardness, oxidation and corrosion properties

Low coefficient of friction

T400 JET 3-2

-270mesh/+20µm

-53 µm/+20 µm

H

CoMoCrSi

(Similar to

Tribaloy® 800)

Atomized

Mo 28.5

Cr 17.5

Si 3.4

Co Rem

 

 

T800

-325mesh/+10µm

-45 µm/+10 µm

FP

 

Good hot hardness, oxidation and corrosion properties

Low coefficient of friction

T800 JET 3-1

-270mesh/+20µm

-53 µm/+20 µm

H

Intermetallic Laves phases provide excellent wear properties

from room temperature to 1500°F(816°C)


Copper Based

Nominal Chemistry

Powder   Name

Size

Spray Process

Application Data

Cu 99%

Spheroidal

 

Cu 99 %

 

Cu JET

-325 mesh/+15µm

-45µm/+15µm

 

FPH

Good thermal and electrical conductivity

Electromagnetic shielding

Build-up and repair of copper base alloys

Used in the paper and printing industry to resist corrosion of inks

CuNiIn

Atomized

 

 

 

Ni 36.5

In 5.0

Cu Rem

 

 

9358-B

-325 mesh/+10 µm

-45 µm/+10 µm

 

FP

Dense coatings with low porosity and oxide content

Protects against fretting and galling

Dense coatings with low oxide content

9358-A

-170/+325 mesh

-90 µm/+45 µm

FP

Cu-10Al-1Fe

(Al-Bronze)

Atomized

 

 

 

Al 10.0

Fe 1.0

Cu Rem

 

 

 

 

Bronze Al JET 1-4

-270 mesh/+5 µm

-53 µm/+5 µm

FPH

Good bearing material

Resistant to fretting and galling at low temperatures

Easily machined coating

-270 mesh/+10 µm

-53 µm/+10 µm

Bronze Al

-120/+325 mesh

-125 µm/+45 µm

FP

GAP PTA

 

 

 

Stellite 1

Electrode 3,2 mm

 

Stellite 1G

PTA GAP Powder

 

Stellite 6G

PTA GAP Powder

 

Stellite 12G

PTA GAP Powder

 

Stellite alloy306 W Powder

PTA GAP Powder

 

Stellite 21 G

PTA GAP Powder

 

Iron Based

 

 

 

FeCrNiMo

(316 SS)

Atomized

Cr 17.0

Ni 12.0

Mo 2.5

Fe Rem

 

304SS

304 JET

-325 mesh/+15 µm

-45 µm/+15 µm

FPH

Excellent corrosion properties

Smooth coating which is easily machined

Good against fretting, cavitation and              erosion

Good for dimensional repair and build-up

361SS

361SS JET

-140 /+325 mesh

-106 µm/+45 µm

FP

316L

316L JET

-270 mesh/+20 µm

-53 µm/+20 µm

H

FeCr

(410 SS)

Atomized

 

Cr 12.5

Fe Rem

 

 

410SS

-170 /+325 mesh

-90 µm/+45 µm

FP

Moderately hard coating

Useful below 1200°F (649°C)

Good against fretting, cavitation and erosion

Excellent corrosion properties

410SS JET

-325 mesh/+15 µm

-45 µm/+15 µm

PH

Molybdenum Based

 

 

 

Molybdenum

Agglomerated

 

 

 

 

Mo 99.0 min

 

 

M313

Moly JET

-170/+325 mesh

-90 µm/+45 µm

 

PH

Self bonding to most metallic

surfaces

Natural lubricity and high

hardness promote good wear

properties

Useful up to 600°F (316°C)


Nickel Based

Nominal Chemistry

Powder   Name

Size

Spray Process

Application Data

Nickel

Atomized 

Ni 99.0 min

Ni 7324

-325 mesh/+10 µm

-45 µm/+10 µm

PH

Coatings are dense and moderately hard Good corrosion and

oxidation properties

Can be used for a ceramic bond coat

Good for repair of Ni based and SS parts

Easily machined

Useful up to 1000°F (538°C)

Ni-20Cr

Atomized

Cr 20.0

Ni Rem

Ni20Cr JET1-3

-325 mesh/+5 µm

-45 µm/+5 µm

PH

Good corrosion and oxidation  properties

Exhibits good bonding characteristics

Resists oxidation and  corrosive gases up to 1800°F (982°C)

Produces bright and smooth coatings

Suitable as a ceramic bond coat

Good for general repair and build-up

Ni20Cr

-230 mesh/+10 µm

-63 µm/+10 µm

FP

Ni20Cr

HN4

-140/+325 mesh

-106 µm/+45 µm

FP

Ni20Cr JET

-270 mesh/+20 µm

-53 µm/+20 µm

H

NiCrSiFeB

Atomized

Cr 11.0

Si 4.0

Fe 3.0

B 2.5

Ni Rem

602P

-230 mesh/+20 µm

-63 µm/+20 µm

 

FPHE

Hard machinable coating, as-sprayed or fused.

Resists abrasions, erosion, fretting and cavitation

NiCrBSiFe

Atomized

Cr 14.5

Fe 4.5

Si 4.5

B 3.2

Ni Rem

74M60

-140/+325 mesh

-106 µm/+45 µm

F

Self-fluxing type alloy

Good corrosion and wear properties

Maybe blended with a carbide and applied via spray/fuse process

Serviceable up to 1500°F (816°C)

74M60JET

-325 mesh/+15 µm

-45 µm/+15 µm

FH

NiWCrSiB

Atomized

W17.0

Cr 15.0

Si 4.0

B 3.0

Ni Rem

6P17WC

-270 mesh/+20 µm

-53 µm/+20 µm

H

Hard machinable coating, as-sprayed or fused

Resists abrasion and erosion at high temperatures

Ni-5Al

Atomized

Al 5.0

Ni Rem

 

 

Ni5Al JET A

-170/+325 mesh

-90 µm/+45 µm

 

FPH

Water atomized Ni-Al powder

Good oxidation and corrosion properties

Can be used for a ceramic bond coat

Good for general repair and build-up

Thick coatings are possible

Easily machined


Nickel Based

Nominal Chemistry

Powder   Name

Size

Spray Process

Application Data

Ni-5Al

Composite   

Al 5.0

Ni Rem

NiAl JET C

-170/+325 mesh

-90 µm/+45 µm

FPH

Composite Ni-Al powder

Self-bonds to most metallic surfaces

Properties similar to Ni5Al JET A

Superior deposition efficiency

Smoke-free sprayability

Ni-20Al

Composite

Al 18.7

Ni Rem

NiAL8020

-170/+270 mesh

-90 µm/+53 µm

FP

Self-bonds to most metallic surfaces

Useful up to 1200°F (649°C)

Good oxidation and corrosion properties

Ni-18Cr-6Al

Composite

Cr 18.0

Al 6.0

Ni Rem

Ni-18Cr-6Al

-120/+325 mesh

-125 µm/+45 µm

FP

Self-bonds to most metallic surfaces

Good oxidation and corrosion properties

Good for general repair and build-up

Thick coatings are possible

NiCrAlFeMo

Composite

Cr 8.0

Al 7.0

Fe 5.0

Mo 5.0

Ni Rem

NiCrAlFeMo

-140/+325 mesh

-106 µm/+45 µm

FP

Machinable stainless steel type coating

Self-bonds to most metallic surfaces

Good toughness and hardness

Good for repair and build-up

Useful up to 1600°F (871°C)

Ni-5Al-5Mo

Composite  

Al 5.5

Mo 5.0

Ni Rem

Ni-5Al-5Mo

-170/+325 mesh

-90 µm/+45 µm

FP

Self-bonds to most metallic surfaces

Good toughness and hardness

Good for repair and build-up

Useful up to 600°F (316°C)

NiCrFeNbTaMoTi

Inconel 718

(Similar to Alloy 718)

Atomized

Cr 19.0

Fe 18.0

Nb+Ta 5.1

Mo 3.1

Ti 1.0

Ni Rem

Inconel 718 JET1-6

-325 mesh/+20 µm

-45 µm/+20 µm

FPH

Excellent high temperature oxidation and corrosion properties

Good for repair and build-up of similar chemistry

superalloy components

Useful up to 1800°F (982°C)

NiCrMoNb

Inconel 625

(Similar to

Alloy 625)

Atomized

Cr 21.5

Mo 9.0

Nb+Ta 3.7

Ni Rem

Inconel 625 JET-1-5

-325 mesh/+10 µm

-45 µm/+10 µm

FPH

Excellent high temperature oxidation and corrosion properties

Good for repair and build-up of similar

chemistry superalloy components

Inconel 625 JET

-270 mesh/+20 µm

-53 µm/+20 µm

H

Useful up to 1800°F (982°C)

NiCrMoW

(Similar to Alloy C/C-276)

Atomized  

Cr 15.8

Mo 16.5

W 4.0

Fe 5.5

Ni Rem

Hastelloy C276H JET

-325 mesh/+15 µm

-45 µm/+15 µm

PH

Excellent high temperature oxidation and corrosion properties

Good for repair and build-up of similar

chemistry superalloy components

NiCrMo

Hastelloy C

Co 2,5/Cr 16,5

W 4,5

Mo 17

Fe 5,75

Si 1

Ni Rem

Hastelloy C JET

 

PH

Ni-25 Graphite

Clad 

C 25.0

Ni Rem

 

Ni25C-1

-170/+325 mesh

-90 µm/+45 µm

FP

Coatings are lubricious and suited for friction applications

Sacrificial coatings good for clearance control

Flame spraying offers good abradability

Useful up to 900°F (482°C)

Ni25C-2

-100 mesh/+30 µm

-150 µm/+30 µm

FP

NIC 2221

-170 mesh/+30 µm

-90 µm/+30 µm

FP

Ni-15 Graphite

Clad 

C 15.0

Ni Rem

Ni15C-41

-120/+325 mesh

-125 µm/+45 µm

FP

Coatings are lubricious and suited for friction applications

Flame spraying offers good abradability

Useful up to 900°F (482°C)

Ni15C-42

-170 mesh/+30 µm

-90 µm/+30 µm

FP

Better erosion resistance than 75/25

Sacrificial coatings good for clearance control

Ni15C-44

-170 mesh/+30 µm

-90 µm/+30 µm

Ni-22Cr-10Al-1Y

Atomized 

Cr 22.0

Al 10.0

Y1.0

Ni Rem

NiCrAlY 7362

-140/+270 mesh

-106 µm/+53 µm

P

Good diffusional stability and oxidation properties

Useful up to 1800°F (982°C)

Typically used for a TBC bondcoat


Aluminum Oxide Based

Nominal Chemistry

Powder   Name

Size

Spray Process

Application Data

Al2O3

Al2O3 99.0 min

AL2O3

-325 mesh/+5 µm

-45 µm/+5 µm

FP

Good for abrasion, erosion and sliding wear

Excellent dielectric properties

Useable between 1550-3000°F (843-1649°C)

Al2O3 99.3 min

AL203 HP

-22 µm/+5 µm

FPH

Al2O3- 3TiO2

Sintered 

TiO2 3.0

Al2O3 Rem

ALO3TiOF

-53 µm

FP

Good for abrasion, erosion and sliding wear

Good in alkali and acid environments

Requires grinding

ALO3TiO

-140/+325 mesh

-106 µm/+45 µm

FP

Al2O3-13TiO2

Sintered 

TiO2 13.0

Al2O3 Rem

ALO13TiO

-325 mesh/+10 µm

-45 µm/+10 µm

FP

Properties similar to Al2O3-3TiO2, but softer and

less resistant to chemicals

Useable up to 1000°F (538°C)

ALO13TiOF

-31 µm/+5 µm

FP

Al2O3- 40TiO2

Fused

 

TiO2 40.0

Al2O3 Rem

 

Al2O3- 40TiO2

-325 mesh/+5 µm

-45 µm/+5 µm

FP

Properties similar to Al2O3-13TiO2, but softer and

less resistant to chemicals

Useable up to 1000°F (538°C)

Excellent finishing properties

Chromium Oxide Based

 

 

Cr2O3

Reacted and

Sintered 

Cr2O3

99.0 min

CR2O3

-325 mesh/+5 µm

-45 µm/+5 µm

FP

Hard, dense wear resistant coatings

Insoluble in acids, alkalis and alcohol

Useable up to 1000°F (540°C)

Excellent engraving properties

-325 mesh/+10 µm

-45 µm/+10 µm

FP

-325 mesh/+15 µm

-45 µm/+15 µm

FP

-325 mesh/+20 µm

-45 µm/+20 µm

FP

-22/+5 µm

 

FP

-31 µm /+10 µm

 

FP

Cr2O3-SiO2-TiO2

Composite

SiO2 5.0

TiO2 3.0

Cr2O3 Rem

-270 mesh/+10 µm

-53 µm/+10 µm

FP

Similar properties to Cr2O3

Resists impact better than Cr2O3

Hard, dense wear resistant coatings

Zirconium Oxide Based

 

 

ZrO2-22MgO

Fused 

MgO 22.0

ZrO2 Rem

ZrO2-22MgO

-200 mesh/+10 µm

-75 µm/+10 µm

P

Good thermal barrier properties

Resistant to molten metals

Good particle erosion resistance

Useful up to 1700°F (927°C)

ZrO2-8Y2O3

Agglomerated

and Sintered

 

 

 

 

Y2O3 7.5

ZrO2 Rem

ZrO2-8Y2O3

-140/+325 mesh

-106 µm/+45 µm

P

Excellent thermal barrier properties

Stabilizes during spray process

Useful up to 2450°F (1343°C)

ZrO2-8Y2O3

-140/+325 mesh

-106 µm/+45 µm

P

ZrO2-8Y2O3

-140/+325 mesh

-106 µm/+45 µm

P

ZrO2-12Y2O3

Agglomerated

and Sintered 

Y2O3 12

ZrO2 Rem

ZrO2-12Y2O3

-120 mesh/+15 µm -

125 µm/+15 µm

P

Excellent thermal barrier properties

Stabilizes during spray process

Useful up to 2100°F (1150°C)

ZrO2-20Y2O3

Agglomerated

and Sintered 

Y2O3 20

ZrO2 Rem

ZrO2-20Y2O3

-120 mesh/+15 µm

-125 µm/+15 µm

P

Very good thermal barrier properties

Stabilizes during spray process )

Useful up to 1550°F (845°C)


Chromium Carbide Based

Nominal Chemistry

Powder   Name

Size

Spray Process

Application Data

Cr3C2

Sintered 

Cr3C2

99.0 min

Cr3C2 JET 1-4

-325 mesh/+5 µm

-45 µm/+5 µm

 

PH

Usually blended with a metal for spraying

Hard and wear resistant

Useful up to 1600°F (871°C)

Cr3C2 JET 1-6

-140/+325 mesh

-106 µm/+45 µm

PH

Cr3C2-25NiCr

Blended   

Ni 20.0

C 10.0

Cr Rem

CrC25NiCrJET 3-4

-325 mesh/+5 µm

-45 µm/+5 µm

PH

Excellent for high temperature cavitation, abrasion and sliding wear

Good hot gas and corrosion resistance

Hard and wear resistant

Useful up to 1600°F (871°C)

Crc-25NiCr

-140 mesh/+20 µm

-106 µm/+20 µm

P

Cr3C2-25NiCr

Agglomerated

and Sintered 

Ni 20.0

C 10.0

Cr Rem

Cr3C2-25NiCr

-270 mesh/+20 µm

-53 µm/+20 µm

PH

Excellent for high temperature cavitation, abrasion and sliding wear

Good hot gas and corrosion resistance

Very dense and hard coatings

Useful up to 1600°F (871°C)

Exceptional flow

WC-12Co

Cast

Co 11.0

C 3.9

W Rem

WC-12Co 3302

-200/+325 mesh

-75 µm/+45 µm

P

Excellent low temperature wear properties

Dense,hard coating with marginal oxidation and corrosion resistance

Useful up to 900°F (482°C)

WC-12Co

Sintered

Co 12.0

C 5.3

W Rem

WC12CoJET 2-3

-325 mesh/+5 µm

-45 µm/+5 µm

PH

Excellent low temperature wear properties

Dense,hard coating with marginal oxidation and corrosion resistance

Useful up to 900°F (482°C)

WC-12Co 3372

-325 mesh/+15 µm

-45 µm/+15 µm

PH

WC-12Co

Agglomerated and Sintered

Co 12.0

C 5.4

W Rem

101

WC12CoJET 2-4

-400 mesh/+10 µm

-38 µm/+10 µm

PH

Similar properties as other WC-12Co

Densified structure with fine carbide dispersion promotes finer

microstructure, better DE and denser, smoother coatings

Excellent flowability

WC-17Co

Agglomerated and Sintered

Co 17.0

C 5.3

W Rem

WC17Co JET

-325 mesh/+15 µm -45 µm/+15 µm

PH

Higher Co levels provides better toughness,

impact strength and ductility than WC-12Co

Densified structure promotes superior coating density and powder

flow

Excellent flowability

WC17CoJET 25NS

-400 mesh/+10 µm

-38 µm/+10 µm

PH

WC-10Ni

Agglomerated and Sintered

Ni 10.5

C 3.6

WRem

WC10Ni JET

-325 mesh/+15 µm

-45 µm/+15 µm

PH

Better corrosion protection than WC-Co

Excellent low temperature wear properties up to 900°F (482°C)

Superior deposition efficiency

WC-12Ni

Agglomerated and Sintered

Ni 10.5

C 3.6

WRem

WC12Ni JET

-325 mesh/+15 µm

-45 µm/+15 µm

PH

Better corrosion protection than WC-Co

Excellent low temperature wear properties up to 900°F (482°C)

Superior deposition efficiency

WC-Co-Cr

Sintered

Co 10.0

Cr 4.0

C 5.3

WRem

WCCoCr JET

-325 mesh/+15 µm

-45 µm/+15 µm

PH

Improved oxidation and corrosion protection over

WC-Co and WC-Ni

Excellent low temperature wear properties

Useful up to 900°F (482°C)


 

Tungsten Carbide Based

Nominal Chemistry

Powder   Name

Size

Spray Process

Application Data

WC-Co-Cr

Agglomerated

and Sintered 

Co 9.5

C 5.2

WRem

WC-Co-Cr

-325 mesh/+15 µm

-45 µm/+15 µm

 

PH

Similar properties as other WC-Co-Cr

Densified structure with fine carbide dispersion promotes

finer microstructure, better DE and denser, smoother coatings

Excellent flowability

WC-CrC-Ni

Sintered

 

 

Cr 20.0

Ni 6.0

C 5.8

WRem

 

WCCrCNi

-325 mesh/+15 µm

-45 µm/+15 µm

 

PH

Superior oxidation and corrosion properties

than other tungsten carbide based material

Better chemical resistance than other

tungsten carbide based materials

Useful up to 1400°F (760°C)

WC-CrC-Ni

Agglomerated

and Sintered

Cr 21.0

Ni 6.0

C 5.0

WRem

WCCrCNi JET

-325 mesh /+15 µm

-45 µm/+15 µm

PH

Similar properties as other WC-CrC-Ni

Densified structure with fine carbide dispersion promotes

finer microstructure, better DE and denser, smoother coatings

Excellent flowability

WC-12Co+50Ni SF

Blended

 

 

Ni 35.0

Cr 8.0

Co 6.0

C 3.0

WRem

62P50

34F JET

-270 mesh /+15 µm

-53 µm/+15 µm

 

PH

Excellent combination of abrasion resistance and toughness

Economical solution to severe wear applications

 

 

WC/W2C

 

C 4,05

W Rem

WC/W2C FUSED

 

 

FP

Fused Tungsten.

Easy spray with base nickel matrix

HV>2100


Puddle torch

 

 

 

 

 

Hardness

 

 

 

 

 

16 - 23

2.5Si,1.5B,Bal. Ni

202P

+150 Mesh/ -90 µm

10186/10224/10680/

10186/10225/1203/1202/1206/

23A/24/120SF/50B/22

Repairing parts made of cast iron that have large

blow holes, cracks, chipped corner, etc.

High oxidation resistance

Easy finished by file or grinding wheel.

22 - 28

2.8Si,1.6B,Bal. Ni

252P

+150 Mesh/ -90 µm

1205/50C/125SF

 

26 - 32

3.1Si,1.7B,Bal. Ni

302P

+150 Mesh/ -90 µm

10185/1204/

 

33 - 40

9Cr,2.8Si,2.9Fe,1.5B,Bal.Ni

402P

+150 Mesh/ -90 µm

10185 + Cr

 

48 - 50

12.5Cr,3.8Si,3.9Fe,2.4B,Bal.Ni

502P

+150 Mesh/ -90 µm

10675/10091/

 

55 - 60

13.5Cr,4.2Si,4.3Fe,3.0B,Bal.Ni

602P

+150 Mesh/ -90 µm

10009/15F

 

 

 

6P 35 WCCo

+150 Mesh/ -90 µm

10999

 

65 - 70

 

6P 50 W2C

+150 Mesh/ -90 µm

10112

 

 

 

6P 50 WCCo

+150 Mesh/ -90 µm

10611

 

Spray-fusion

 

 

 

 

 

Hardness Hrc

 

 

 

 

 

33-40

9Cr,3Si,3Fe,1.8B,Ni

72M40

-150 mesh/+325 mesh

-120 µm/+40 µm

12494

12 C

 

 

47-53

12Cr4Si4Fe2.6B,Ni

76M50

-150 mesh/+325 mesh

-120 µm/+40 µm

12495

14 E

 

 

55-60

14Cr4.25Si4.5Fe3B,Ni

74M60

-150 mesh/+325 mesh

-120 µm/+40 µm

12496

15 E

 

 

55-60

14Cr4.25Si4.5Fe3B2.5Cu2.5Mo,Ni

80M60

-150 mesh/+325 mesh

-120 µm/+40 µm

12497

16 C

 

 

60-65

14Cr4.5Si4.5Fe3.2B,Ni

75M62

-150 mesh/+325 mesh

-120 µm/+40 µm

19 E-20E

 

 

60+75

WC14Cr4.25Si4.5Fe3B,Ni

74M60WC

-150 mesh/+325 mesh

-120 µm/+40 µm

12112

31 C

 

 

60+75

WC14Cr4.25Si4.5Fe3B,Ni

62P35 WC  low schrinkage

-150 mesh/+325 mesh

-120 µm/+40 µm

12112

31 C

 

 

60+75

WCCoNiCrBSi

60K50

-150 mesh/+325 mesh

-120 µm/+40 µm

 

 

 

65+75

CrCNiCrBSi

60K84

-150 mesh/+325 mesh

-120 µm/+40 µm

 

 

 

 

60+75

WCCoNiCrBSi

60K85

-150 mesh/+325 mesh

-120 µm/+40 µm

32C

 

 

 

 

WCCoNiCrBSi

62P50

-150 mesh/+325 mesh

-120 µm/+40 µm

34F

 

 

GMA #

72M40

76M50

74M60

75M62

80M60

Solidus Temperature (°F)

1775

1775

1775

1775

1775

Solidus Temperature (°C)

968

968

968

968

968

Liquidus Temperature (°F)

2100

2050

1900

1880

1910

Liquidus Temperature (° C)

1149

1121

1038

1027

1043

Hot Hardness(HRC)

 

 

 

 

 

at 600°F (315°C)

35

48

57

60

57

at 800°F (425°C)

33

45

54

57

54

at 1000°F (540°C)

29

40

49

51

49

at 1200°F (650°C)

25

35

44

45

45

Special Preparation

 

 

 

 

 

40

NiAL/NiCrBSi

40P37

19400

451-442

 

50

WCCo/NiAl

2P37

 

439