Pure Metals and Metal Alloys

Pure Metals and Metal Alloys

Advanced alloy powders, pure and simple

From simple coatings for buildup repair to complex coatings that protect against high-temperature wear and oxidation, we offer a wide range of pure metal-based alloy powders. We use a variety of manufacturing techniques—including argon gas atomization (AGA), vacuum sintering, agglomeration and physical blending—to produce standard and custom powders that deliver the coating properties your application demands.

Aluminum Based -

Powder Name & Composition

Chemistry & Size

Characteristics

Safety Data Sheet (SDS)

AL-104

Aluminum

(Atomized)

Al 99.0 min

-90 µm/+45 µm

  • Corrosion protection coating

  • Good for repair of Al and Mg based parts

  • Very dense coating

  • Good for electrical conductivity

AL-104 (109KB)

AL-102

Al-12 Si

(Atomized)

Si 12.0

Al balance

-90 µm/+45 µm

  • Good for repair of Al and Mg based parts

  • Harder and denser than pure Al

  • Turbine engine abradable-gas path seal coating

  • Makes bright, smooth, shiny finishes

AL-102 (116KB)

AL-123

AEP-32

(Sintered)

Proprietary

  • Proprietary Rolls-Royce Allison electrophoretic material

AL-123 (117KB)

AL-131

AEP-100

(Sintered)

Proprietary

  • Proprietary Rolls-Royce Allison electrophoretic material

AL-131 (115KB)

AL-228

Al-12 Si 40

Polyester

(Blend)

Polyester 40.0

Si 7.2

Al balance

-125 µm/+11 µm

  • High-quality abradable material

  • Useable up to 617°F / 325°C

AL-228 (132KB)

Cobalt Based -

Powder Name & Composition

Chemistry & Size

Characteristics

Safety Data Sheet (SDS)

CO-103

CoCrNiW

(Atomized)

Cr 25.5

Ni 10.5

W 7.5

C 0.5

Co balance

-45 µm/+5 µm

  • Similar to Co Alloy 31 and X40

  • Excellent oxidation resistance

  • Replaces WC in high-temperature applications

  • Smooth as-sprayed coating

  • Suited for repair of Co-based parts

CO-103 (129KB)

CO-105 / CO-285-2

CoCrNiW

(Atomized)

Cr 25.5

Ni 10.5

W 7.5

C 0.5

Co balance

-75 µm/+45 µm

  • Similar to Co Alloy 31 and X40

  • Excellent oxidation resistance

  • Replaces WC in high-temperature applications

  • Smooth as-sprayed coating

  • Suited for repair of Co-based parts

CO-105 (118KB)

CO-285-2 (132KB)

CO-285

CoCrNiW

(Atomized)

Cr 25.5

Ni 10.5

W 7.5

C 0.5

Co balance

-106 µm/+45 µm

  • Similar to Co Alloy 31 and X40

  • Excellent oxidation resistance

  • Replaces WC in high-temperature applications

  • Smooth as-sprayed coating

  • Suited for repair of Co-based parts

CO-285 (132KB)

CO-285-12 / 1245F

CoCrNiW

(Atomized)

Cr 25.5

Ni 10.5

W 7.5

C 0.5

Co balance

-53 µm/+22 µm

  • Similar to Co Alloy 31 and X40

  • Excellent oxidation resistance

  • Replaces WC in high-temperature applications

  • Smooth as-sprayed coating

  • Suited for repair of Co-based parts

CO-285-12 / 1245F (132KB)

CO-106-1

CoCrWSiC

(Atomized)

Cr 28.0

W 4.0

C 1.0

Si 1.0

Co balance

-45 µm/+11 µm

  • Similar to Co Alloy 6

  • Excellent wear properties

  • Produces hard, dense coatings

  • High-temperature wear and corrosion properties

CO-106-1 (132KB)

CO-106-8 / 1256F

CoCrWSiC

(Atomized)

Cr 28.0

W 4.0

C 1.0

Si 1.0

Co balance

-53 µm/+22 µm

  • Similar to Co Alloy 6

  • Excellent wear properties

  • Produces hard, dense coatings

  • High-temperature wear and corrosion properties

CO-106-8 / 1256F (130KB)

CO-109

CoMoCrSi

(Atomized)

Mo 28.5

Cr 8.5

Si 2.6

Co balance

-45 µm

  • Similar to Tribaloy® 400

  • 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

CO-109 (129KB)

CO-109-3

CoMoCrSi

(Atomized)

Mo 28.5

Cr 8.5

Si 2.6

Co balance

-38 µm / +16 µm

  • Similar to Tribaloy® 400

  • 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

 

CO-109 (129KB)

CO-109-7

CoMoCrSi

(Atomized)

Mo 28.5

Cr 8.5

Si 2.6

Co balance

-45 µm/+22 µm

  • Similar to Tribaloy® 400

  • 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

CO-109-7 (129KB)

CO-111

CoMoCrSi

(Atomized)

Mo 28.5

Cr 17.5

Si 3.4

Co balance

-45 µm/+11 µm

  • Similar to Tribaloy® 800
  • 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

CO-111 (135KB)

CO-111-10

CoMoCrSi

(Atomized)

Mo 28.5

Cr 17.5

Si 3.4

Co balance

-45 µm/+16 µm

  • Similar to Tribaloy® 800

  • 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

CO-111-10 (135KB)

CO-114-2

CoCrWNiV

(Atomized)

Cr 28.0

W 19.5

Ni 5.0

V 1.0

Co balance

-75 µm/+45 µm

  • Similar to CM-64

  • Excellent high-temperature wear and oxidation properties

  • Serviceable to 1350°F / 732°C

  • Hard, dense coating suitable for repair of Co-based parts

CO-114-2 (133KB)

CO-263-3

CoCrNiWSi

(Atomized)

Cr 29.5

Ni 10.5

W 7.0

Si 0.8

Co balance

-45 µm/+16 µm

  • Similar to FSX-414

  • Good oxidation resistance

  • Superalloy used in aerospace applications

CO-263-3 (133KB)

CO-174

CoCrAlHf

(Atomized)

Cr 26.0

Al 10.5

Hf 2.75

Co balance

-45 µm/+5 µm

Atomized CoCrAlHf alloy

CO-174 (128KB)

CO-216

CoCrNiSiW

(Atomized)

Cr 19.0

Ni 17.0

Si 8.0

W 4.0

Co balance

-106 µm

  • Designed for brazing of superalloys

  • Advantages include high-temperature strength and oxidation resistance

CO-216 (134KB)

CO-216-4

CoCrNiSiW

(Atomized)

Cr 19.0

Ni 17.0

Si 8.0

W 4.0

Co balance

-45 µm

  • Designed for brazing of superalloys

  • Advantages include high-temperature strength and oxidation resistance

CO-216-4 (134KB)

CO-222

CoCrNiWTa

(Atomized)

Cr 23.4

Ni 10.0

W 7.0

Ta 3.5

Co balance

-45 µm

  • Similar to MAR-M-509

  • Primarily used in repair applications

CO-222 (138KB)

CO-222-3

CoCrNiWTa

(Atomized)

Cr 23.4

Ni 10.0

W 7.0

Ta 3.5

Co balance

-106 µm/+45 µm

  • Similar to MAR-M-509

  • Primarily used in repair applications

CO-222-3 (138KB)

CO-333

CoCrNiWTaB

(Atomized)

Cr 28.3

Ni 10.0

W 7.0

Ta 3.5

B 2.8

Co balance

-45 µm/+11 µm

  • Similar to MAR-M-509+B

  • Low-melt temperature version of CO-222

  • Used in brazing applications

CO-333 (134KB)

CO-333-7

CoCrNiWTaB

(Atomized)

Cr 28.3

Ni 10.0

W 7.0

Ta 3.5

B 2.8

Co balance

-125 µm/+45 µm

  • Similar to MAR-M-509+B

  • Low-melt temperature version of CO-222

  • Used in brazing applications

CO-333-7 (134KB)

Copper Based -

Powder Name & Composition

Chemistry & Size

Characteristics

Safety Data Sheet (SDS)

CU-101

CuNiIn

(Atomized)

Ni 36.5

In 5.0

Cu balance

-45 µm/+5 µm

  • Excellent anti-fretting coating

  • Dense coatings with low porosity and oxide content

CU-101 (132KB)

CU-102

CuNiIn

(Atomized)

Ni 36.5

In 5.0

Cu balance

-75 µm/+45 µm

  • Excellent anti-fretting coating

  • Dense coatings with low porosity and oxide content

CU-102 (132KB)

CU-103

Cu-38Ni

(Atomized)

Ni 38.0

Cu balance

-75 µm/+45 µm

  • Protects against fretting and galling
  • Dense coatings with low oxide content

CU-103 (132KB)

CU-116

Cu-38Ni

(Atomized)

Ni 38.0

Cu balance

-45 µm

  • Protects against fretting and galling

  • Dense coatings with low oxide content

CU-116 (132KB)

CU-104

Cu-10AI-1Fe

(Al-Bronze)

(Atomized)

AI 10.0

Fe 1.0

Cu balance

-53 µm/+5 µm

  • Good bearing material

  • Resistant to fretting and galling at low temperatures

  • Easily machined coating

CU-104 (120KB)

CU-104-2

Cu-10AI-1Fe

(Al-Bronze)

(Atomized)

AI 10.0

Fe 1.0

Cu balance

-53 µm/+11 µm

  • Good bearing material

  • Resistant to fretting and galling at low temperatures

  • Easily machined coating

CU-104-2 (120KB)

CU-104-5

Cu-101AI-1Fe

(Al-Bronze)

(Atomized)

Al 10.0

Fe 1.0

Cu balance

-125 µm/+45 µm

  • Good bearing material

  • Resistant to fretting and galling at low temperatures

  • Easily machined coating


CU-104-5 (120KB)

CU-159-3

Pure Cu

(Atomized)

Cu

99.0 min

-38 µm/+11 µm

  • Atomized, pure Cu

CU-159-3 (120KB)

CU-159

Pure Cu

(Atomized)

Cu

99.0 min

-31 µm/+5 µm

  • Atomized, pure Cu

CU-159 (120KB)

CU-159-1

Pure Cu

(Atomized)

Cu

99.0 min

-75 µm/+45 µm

  • Atomized, pure Cu

CU-159-1 (120KB)

Iron Based -

Powder Name & Composition

Chemistry & Size

Characteristics

Safety Data Sheet (SDS)

FE-101

FeCrNiMo

(316 SS)

(Atomized)

Cr 17.0

Ni 12.0

Mo 2.5

Fe balance

-45 µm

  • Excellent corrosion properties

  • Smooth coating that is easily machined

  • Good against fretting, cavitation and erosion

  • Good for dimensional repair and build-up

FE-101 (127KB)

FE-271-4

FeCrNiMo

(316 SS)

(Atomized)

Cr 17.0

Ni 12.0

Mo 2.5

Fe balance

-106 µm/+45 µm

  • Excellent corrosion properties

  • Smooth coating that is easily machined

  • Good against fretting, cavitation and erosion

  • Good for dimensional repair and build-up

FE-271-4 (132KB)

FE-271 / 1236F

FeCrNiMo

(316 SS)

(Atomized)

Cr 17.0

Ni 12.0

Mo 2.5

Fe balance

-53 µm/+22 µm

  • Excellent corrosion properties

  • Smooth coating that is easily machined

  • Good against fretting, cavitation and erosion

  • Good for dimensional repair and build-up

FE-271 / 1236F (132KB)

FE-108-3

FeCr

(420 SS)

(Atomized)

Cr 12.5

Fe balance

-45 µm/+16 µm

  • Useful below 1200°F / 649°C

  • Good against fretting, cavitation and erosion

  • Excellent corrosion properties

FE-108-3 (116KB)

FE-211-5 /

1234F

FeCr

(420 SS)

(Atomized)

Cr 13.0

C 0.4

Fe balance

-53 µm/+22 µm

  • Moderately hard coating

  • Useful below 1200°F / 649°C

  • Good against fretting, cavitation and erosion

  • Excellent wear and corrosion resistance

FE-211-5 / 1234F (116KB)

FE-328-1

FeNiCoMo

(Atomized)

Ni 18.0

Co 9.0

Mo 5.0

Fe balance

-45 µm/+16 µm

Atomized FeNiCoMo alloy

FE-328-1 (130KB)

Molybdenum Based -

Powder Name & Composition

Chemistry & Size

Characteristics

Safety Data Sheet (SDS)

MO-103

Molybdenum

(Agglomerated)

Mo 99.5 min

-22 µm

  • Self-bonding to most metallic surfaces

  • Natural lubricity and high hardness

  • Good wear properties

  • Useful up to 600°F / 316°C

MO-103 (116KB)

MO-130-1

Molybdenum

(Agglomerated)

Mo 99.5 min

-75 µm/+45 µm

  • Self-bonding to most metallic surfaces

  • Natural lubricity and high hardness

  • Good wear properties

  • Useful up to 600°F / 316°C

MO-130-1 (116KB)

MO-130-2 / 1193F

Molybdenum

(Agglomerated)

Mo 99.5 min

-45 µm/+16 µm

  • Self-bonding to most metallic surfaces

  • Natural lubricity and high hardness

  • Good wear properties

  • Useful up to 600°F / 316°C

MO-130-2 / 1193F (116KB)

MO-102

Molybdenum

(Plasma Densified)

Mo 99.5 min

-90 µm/+45 µm

  • Self-bonding to most metallic surfaces

  • Natural lubricity and high hardness promote

  • Good wear properties

  • Useful up to 600°F / 316°C

MO-102 (116KB)

Al-1054

Molybdenum

(Blend)

Ni 18.3

Cr 3.5

Si 1.0

Fe 1.0

Mo balance

-45 µm/+16 µm

  • Coating structure promotes oil retention

  • High wear resistance

  • Low-coefficient resistance

AI-1054 (135KB)

Nickel Based -

Powder Name & Composition

Chemistry & Size

Characteristics

Safety Data Sheet (SDS)

NI-101

Nickel

(Atomized)

Ni 99.00 min

-45 µm/+11 µm

  • Coatings are dense and moderately hard

  • Good corrosion and oxidation properties

  • Good for repair of Ni and SS parts

  • Can be used for ceramic bond coat

  • Easily machined

  • Useful up to 1000°F / 538°C

NI-101 (131KB)

NI-969

Nickel

(Atomized)

Ni 99.00 min

-75 µm/+45 µm

  • Coatings are dense and moderately hard

  • Good corrosion and oxidation properties

  • Good for repair of Ni and SS parts

  • Can be used for ceramic bond coat

  • Easily machined

  • Useful up to 1000°F / 538°C

NI-969 (131KB)

NI-914-3

Nickel

(Atomized)

Ni 99.00 min

-45 µm/+16 µm

  • Coatings are dense and moderately hard

  • Good corrosion and oxidation properties

  • Good for repair of Ni and SS parts

  • Can be used for ceramic bond coat

  • Easily machined

  • Useful up to 1000°F / 538°C

NI-914-3 (131KB)

NI-105

Ni-20Cr

(Atomized)

Cr 20.0

Ni balance

-45 µm/+5 µm

  • Produces bright and smooth coatings

  • Exhibits good bonding characteristics

  • Resists oxidation and corrosive gases up to 1800°F / 982°C

  • Suitable as a ceramic bond coat

  • Good for general repair and build-up

  • Good corrosion and oxidation properties

NI-105 (131KB)

NI-106

Ni-20Cr

(Atomized)

Cr 20.0

Ni balance

-63 µm/+11 µm

  • Produces bright and smooth coatings

  • Exhibits good bonding characteristics

  • Resists oxidation and corrosive gases up to 1800°F / 982°C

  • Suitable as a ceramic bond coat

  • Good for general repair and build-up

  • Good corrosion and oxidation properties

NI-106 (132KB)

NI-107

Ni-20Cr

(Atomized)

Cr 20.0

Ni balance

-125 µm/+45 µm

  • Produces bright and smooth coatings

  • Exhibits good bonding characteristics

  • Resists oxidation and corrosive gases up to 1800°F / 982°C

  • Suitable as a ceramic bond coat

  • Good for general repair and build-up

  • Good corrosion and oxidation properties

NI-107 (132KB)

NI-105-7 / 1262F

Ni-20Cr

(Atomized)

Cr 20.0

Ni balance

-53 µm/+22 µm

  • Produces bright and smooth coatings

  • Exhibits good bonding characteristics

  • Resists oxidation and corrosive gases up to 1800°F / 982°C

  • Suitable as a ceramic bond coat

  • Good for general repair and build-up

  • Good corrosion and oxidation properties

NI-105-7 / 1262F (132KB)

NI-980-1 / 1260F

Ni-50Cr

(Atomized)

Cr 46.0

Fe 1.0

Ni balance

-53 µm/+22 µm

  • Coatings are resistant to corrosive gases (V and S)

  • Good boiler coating material

NI-980-1 / 1260F (134KB)

NI-980-4

Ni-50Cr

(Atomized)

Cr 46.0

Fe 1.0

Ni balance

-45 µm/+16 µm

  • Coatings are resistant to corrosive gases (V and S)

  • Good boiler coating material

NI-980-4 (134KB)

NI-167

NiCrBSiFe

(Atomized)

Cr 14.5

Fe 4.5

Si 4.5

B 3.25

C 0.75

Ni balance

-106 µm/+45 µm

  • Self-fluxing type alloy

  • Good corrosion and wear properties

  • May be blended with a carbide and applied via spray/fuse process

  • Serviceable up to 1500°F / 816°C

NI-167 (134KB)

NI-167-6

NiCrBSiFe

(Atomized)

Cr 14.5

Fe 4.5

Si 4.5

B 3.25

C 0.75

Ni balance

-45 µm/+16 µm

  • Self-fluxing type alloy

  • Good corrosion and wear properties

  • May be blended with a carbide and applied via spray/fuse process

  • Serviceable up to 1500°F / 816°C

NI-167-6 (134KB)

NI-167-6

NiCrBSiFe

(Atomized)

Cr 14.5

Fe 4.5

Si 4.5

B 3.25

C 0.75

Ni balance

-53 µm/+22 µm

  • Self-fluxing type alloy

  • Good corrosion and wear properties

  • May be blended with a carbide and applied via spray/fuse process

  • Serviceable up to 1500°F / 816°C

NI-1024 / 1275H (135KB)

NI-1024 / 1275H

NiCrBSiFe

(Atomized)

Cr 16.5

Si 4.2

Fe 4.5

B 3.1

C 0.8

Ni balance

-53 µm/+22 µm

  • Self-fluxing type alloy

  • Good corrosion and wear properties

  • May be blended with a carbide and applied via spray/fuse process

  • Serviceable up to 1500°F / 816°C

NI-1024 / 1275H (135KB)

1276F

NiWCrSiB

(Atomized)

W 16.5

Cr 15.5

Si 4.0

Fe 3.5

B 2.9

Ni balance

-63 µm/+22 µm

  • Hard, machineable coating, as-sprayed or fused

  • Resists abrasion and erosion at high temperatures

1276F (39KB)

NI-185

Ni-5Al

(Atomized)

Al 5.0

Ni balance

-90 µm/+45 µm

  • Water-atomized Ni-Al powder

  • Good oxidation and corrosion properties

  • Can be used for a ceramic bond coat

  • Good for repair and build-up

  • Thick coatings are possible

  • Easily machined

NI-185 (131KB)

NI-970

Ni-5Al

(Clad)

Al 5.1

Ni balance

-90 µm/+45 µm

  • Clad Ni-Al powder

  • Properties similar to Ni-185

  • Superior deposition efficiency

  • Smoke-free sprayability

NI-970 (131KB)

NI-109

Ni-5Al

(Composite)

Al 5.0

Ni Rem

-90 µm/+45 µm

  • Composite Ni-Al powder

  • Self-bonds to most metallic surfaces

  • Properties similar to Ni-185

NI-109 (131KB)

NI-122

Ni-18Cr-6Al

(Composite)

Cr 18.0

Al 6.0

Si 1.0

Ni balance

-125 µm/+45 µm

  • Self-bonds to most metallic surfaces

  • Good oxidation and corrosion properties

  • Good for general repair and buildup

  • Thick coatings are possible

NI-122 (134KB)

NI-528

NiCrAl

(Atomized)

Cr 18.0

Al 6.0

Ni balance

-45 µm/+11 µm

  • Similar to Ni-122 but suitable for spraying with HVOF

  • Good oxidation and corrosion properties

  • Good for general repair and buildup

  • Thick coatings are possible

  • Smoke-free sprayability

NI-528 (132KB)

NI-630

NiCrAlFeMo

(Composite)

Cr 9.75

Al 7.2

Fe 4.5

Mo 2.0

Ni balance

-150 µm/+45 µm

  • Machinable stainless steel type coating

  • Self-bonds to most metallic surfaces

  • Good oxidation and corrosion properties

  • Good for repair and buildup

  • Thick coatings are possible

  • Useful up to 1600°F / 871°C

NI-630 (132KB)

NI-183

NiCrCoTiW

(Atomized)

Cr 14.0

Co 9.5

Ti 5.0

W 4.0

Mo 4.0

Al 3.0

Ni balance

-125 µm/+45 µm

  • Similar to Rene 80

  • Good for repair and build-up of similar chemistry superalloy components

NI-183 (137KB)

NI-183-1

NiCrCoTiW

(Atomized)

Cr 14.0

Co 9.5

Ti 5.0

W 4.0

Mo 4.0

Al 3.0

Ni balance -45µm

  • Similar to Rene 80

  • Good for repair and build-up of similar chemistry superalloy components

NI-183-1 (137KB)

NI-183-4

NiCrCoTiW

(Atomized)

Cr 14.0

Co 9.5

Ti 5.0

W 4.0

Mo 4.0

Al 3.0

Ni balance

-45 µm/+16 µm

  • Similar to Rene 80

  • Good for repair and build-up of similar chemistry superalloy components

NI-183-4 (137KB)

NI-202

NiCrFeNb-TaMoTi

(Atomized)

Cr 19.0

Fe 18.0

Nb+Ta 5.1

Mo 3.0

Ti 1.0

Ni balance

-125 µm/+45 µm

  • Similar to Alloy 718

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and build-up of similar superalloy components

  • Useful up to 1800°F / 982°C

NI-202 (144KB)

NI-202-1

NiCrFeNb-TaMoTi

(Atomized)

Cr 19.0

Fe 18.0

Nb+Ta 5.1

Mo 3.1

Ti 1.0

Ni balance

-90 µm/+45 µm

  • Similar to Alloy 718

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and build-up of similar superalloy components

  • Useful up to 1800°F / 982°C

NI-202-1 (144KB)

NI-202-2

NiCrFeNb-TaMoTi

(Atomized)

Cr 19.0

Fe 18.0

Nb+Ta 5.1

Mo 3.1

Ti 1.0

Ni balance

-45 µm/+11 µm

  • Similar to Alloy 718

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and build-up of similar superalloy components

  • Useful up to 1800°F / 982°C

NI-202-2 (144KB)

NI-202-3 / 1278F

NiCrFeNb-TaMoTi

(Atomized)

Cr 19.0

Fe 18.0

Nb+Ta 5.1

Mo 3.1

Ti 1.0

Ni balance

-45 µm/+16 µm

  • Similar to Alloy 718

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and build-up of similar superalloy components

  • Useful up to 1800°F / 982°C

NI-202-3 / 1278F (144KB)

NI-202-23

NiCrFeNb-TaMoTi

(Atomized)

Cr 19.0

Fe 18.0

Nb+Ta 5.1

Mo 3.1

Ti 1.0

Ni balance

-22 µm

  • Similar to Alloy 718

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and build-up of similar superalloy components

  • Useful up to 1800°F / 982°C

NI-202-23 (144KB)

NI-256

Proprietary Superalloy (Atomized)

Proprietary

Product data available through OEM

NI-256 (144KB)

NI-256-1

Proprietary Superalloy (Atomized)

Proprietary

Product data available through OEM

NI-256-1 (144KB)

NI-256-2

Proprietary Superalloy (Atomized)

Proprietary

Product data available through OEM

NI-256-2 (144KB)

NI-256-7

Proprietary Superalloy (Atomized)

Proprietary

Product data available through OEM

NI-256-7 (144KB)

NI-328

NiCrMoNb

(Atomized)

Cr 21.5

Mo 9.0

Nb + Ta 3.7

Ni balance

-45 µm/+11 µm

  • Similar to Alloy 625

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and buildup of similar chemistry superalloy components

  • Useful up to 1800°F / 982°C

NI-328 (133KB)

Ni-328-1

NiCrMoNb

(Atomized)

Cr 21.5

Mo 9.0

Nb + Ta 3.7

Ni balance

-90 µm/+45 µm

  • Similar to Alloy 625

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and buildup of similar chemistry superalloy components

  • Useful up to 1800°F / 982°C

NI-328-1 (133KB)

NI-328-5 / 1265F

NiCrMoNb

(Atomized)

Cr 21.5

Mo 9.0

Nb + Ta 3.7

Ni balance

-53 µm/+22 µm

  • Similar to Alloy 625

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and buildup of similar chemistry superalloy components

  • Useful up to 1800°F / 982°C

NI-328-5 (133KB)

NI-544-1

NiCrMoW

(Atomized)

Cr 15.8

Mo 16.5

W 4.0

Fe 5.5

Ni balance

-150 µm/+45 µm

 

  • Similar to Alloy C / C 276

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and build-up of similar chemistry superalloy components

NI-544-1 (134KB)

NI-544-6 / 1269F

NiCrMoW

(Atomized)

Cr 15.8

Mo 16.5

W 4.0

Fe 5.5

Ni balance

-63 µm/+22 µm

  • Similar to Alloy C / C 276

  • Excellent high-temperature oxidation and corrosion properties

  • Good for repair and build-up of similar chemistry superalloy components

NI-544-6 (134KB)

NI-114

Ni-25 Graphite

(Clad)

C 25.0

Ni balance

-90 µm

  • Coatings are lubricious and suited for friction applications

  • Flame spraying offers good abradability

  • Sacrificial coatings good for clearance control

  • Useful up to 900°F / 482°C

NI-114 (131KB)

NI-115

Ni-15 Graphite

(Clad)

C 15.0

Ni balance

-150 µm

  • Coatings are lubricious and suited for friction applications

  • Flame spraying offers good abradability

  • Sacrificial coatings good for clearance control

  • Useful up to 900°F / 482°C

  • Better erosion resistance than 75/25

NI-115 (131KB)

NI-430

NiCrSi

(Atomized)

 

Cr 19.0

Si 10.0

Ni balance

-125 µm/+45 µm

  • Provides strong tough joints with excellent high-temperature performance
  • Recommended for nuclear applications or those where boron cannot be tolerated



NI-430

Ni-362-3

NiCrFeSiB

(Atomized)

Cr 7.0

Si 4.2

Fe 3.0

B 3.0

Ni balance

-125 µm/+45 µm

  • Similar to Ni-167 but permits brazing at much lower temperatures

  • Excellent flow characteristics without intergranular attack (IGA) or other base dilutions

NI-363-3

Ni-332

(Atomized)

Cr 14.0

Co 9.5

Ti 4.8

Si 4.6

Mo 4.0

W 3.8

Al 3.0

Ni balance

-125 µm/+45 µm

  • Atomized, NiCrCoTiSiMoWAl Alloy


NI-332