KMT Stellite Alloys Brochure FINAL
KMT Stellite Alloys Brochure FINAL
KMT Stellite Alloys Brochure FINAL
HARDFACING ALLOYS
Hardfacing Alloys
Kennametal Stellite is a global provider of solutions to wear, heat, and corrosion problems and is a world-class manufacturer of alloybased materials and components. These consumables come in the form of rod, wire, powder, and electrode and can be custom engineered to meet individual customer needs. In addition to welding consumables, Kennametal Stellite also offers its expertise and experience in coating services in the form of HVOF (HighVelocity Oxy Fuel) coatings and weld hardfacings. In the UK and in Shanghai, hardfaced components can be manufactured complete to drawing by in-house machine shops. Industries Served Kennametal Stellite offers its proven heat, wear, and corrosion experience and customized solutions to a broad range of industries, including: Aerospace Oil & Gas Automotive Power Generation Steel Timber Glass Forging Dental
Table of Contents
At a Glance..............................................2 TIG and Oxy-Acetylene Welding................4 MMA Weld Deposition..............................6 MIG Weld Deposition, Submerged Arc Welding...........................8 PTA & Laser Weld Deposition.................10 HVOF & Plasma Spray Deposition...........14 Spray and Fuse & Powder Welding.........20
Hardfacing Alloys
Stellite Alloys
TM
Nistelle Alloys
TM
Deloro Alloys
TM
The cobalt-based Stellite alloys are our most wellknown and successful alloys, with the best all-round properties. They combine excellent mechanical wear resistance, especially at high temperatures, with very good corrosion resistance. The Stellite alloys are mostly cobalt based with additions of Cr, C, W, and/or Mo. They are resistant to cavitation, corrosion, erosion, abrasion, and galling. The lower carbon alloys are generally recommended for cavitation, sliding wear, or moderate galling. The higher carbon alloys are usually selected for abrasion, severe galling, or lowangle erosion. Stellite 6 is our most popular alloy as it provides a good balance of all of these properties. The Stellite alloys retain their properties at high temperatures where they also have excellent oxidation resistance. They are typically used in the temperature range 315600 C (6001112 F). They can be finished to exceptional levels of surface finish with a low coefficient of friction to give good sliding wear.
The Deloro alloys are nickel based with additions of typically Cr, C, B, Fe, and Si. They cover a very wide range of hardness from soft, tough, build-up alloys that are easily machined or hand finished to exceptionally hard, wear-resistant alloys. They can be selected for hardnesses of between 20 and 62 HRC depending on the application. Their low melting point makes these powders ideal for spray/fuse or powder welding applications. The lower hardness Deloro alloys are typically used for glass forming molds. The higher hardness Deloro alloys are used in severe wear applications, such as rebuilding the flights of feeder screws, and they can be blended with carbides for an even harder deposit. They maintain their properties up to temperatures of about 315 C (600 F) and also offer good oxidation resistance.
Nistelle alloys are designed for corrosion resistance rather than wear resistance, particularly in aggressive chemical environments where their high chromium and molybdenum contents provide excellent pitting resistance. As a class, they are also generally resistant to high-temperature oxidation and hot gas corrosion. Care should be taken to select the correct alloy for any given corrosive environment.
Jet Kote powders are used for thermal spraying, and they usually consist of either a carbide-metal combination (e.g., WC-Co or Cr3Cr2-NiCr) or a Stellite alloy.
Delcrome Alloys
TM
Stelcar Alloys
Stelcar alloys are mixtures of carbide particles and nickel- or cobalt-based powders. Due to their construction, Stelcar materials are available only in powder form, for application by thermal spraying or weld hardfacing.
These iron-based alloys were developed to resist abrasive wear at lower temperatures, typically up to 200 C. When compared with our cobalt- and nickel-based alloys, their corrosion resistance is also comparatively low.
Selection Table
ALLOY Stellite Deloro
Resistance Low Satisfactory Very Good Excellent
MECHANICAL WEAR
CORROSION
Tribaloy Alloys
TM
Tribaloy alloys, with either nickel or cobalt base, were developed for applications in which extreme wear is combined with high temperatures and corrosive media. Their high molybdenum content accounts for the excellent dry-running properties of Tribaloy alloys and makes them very suitable for use in adhesive (metal-tometal) wear situations. Tribaloy alloys can be used up to 8001000 C (14721832 F).
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Others
UNS
ASME/ AWS2
Hardness (HRC)3
5156 4045 4651 5359 2840*
Bal.
33
16
2.45
<3.0
<1.0
<3.0
<2.0
<0.5
Bal. 28 0.25 3 5.2 <3.0 <1.5 <0.5 R30021 (SF)A 5.21 Stellite alloy 21 ERCoCr-E *Stellite alloy 22 Bal. Bal. Bal. 28 20 26 14 7.5 0.30 0.1 0.5 1.5 10 10 12 <1.0 <3.0 <3.0 <2.0 <2.0 <1.0 <1.0 <0.5 <0.5 <0.5 R30031
4149* 2045* 2035 * 4045 3847 5459 2028 4854 3944 4651 2845*
*Stellite alloy F Bal. 26 12 1.7 22 <1.0 <3.0 <2.0 <0.5 R30002 (SF)A 5.21 ERCoCr-F Stellite alloy 107
Bal.
31
24
<2.0
<3.0
<0.5
Stellite alloy 190 Bal. 27 13.5 3.2 <1.0 <1.0 <3.0 1.0 <0.5 R30014 (SF)A 5.21 ERCoCr-G Stellite alloy 250 Stellite alloy 694 Stellite alloy 706 Stellite alloy 712 ULTIMET ** Bal. Bal. Bal. Bal. Bal. 28 28 31 31 26 19 2 0.1 1 1.2 1.55 0.06 5 <3.0 <3.0 9 4 8 5 21 <3.0 <3.0 <3.0 3 <1.0 1 <1.0 <2.0 <0.5 1%V <1.0 <1.0 <1.0 R31233
Tungsten Electrode
12 0.4 Bal. 23 2.9 1.6% B N99644 (SF)A 5.21 Deloro alloy 40 ERNiCr-A Deloro alloy 50 12 0.5 Bal. 35 3.5 2.2% B N99645 (SF)A 5.21 ERNiCr-B Deloro alloy 55 12 0.6 Bal. 35 4.0 2.3% B
Contact Tube
Deloro alloy 60 13 0.7 Bal. 35 4.3 3.0% B N99646 (SF)A 5.21 ERNiCr-C
Sheilding Gas
Arc Consumable
Tribaloy alloy T-700 (Ni based) <1.5 16 <0.08 Bal. 32 <1.5 3.4 <1.0 Tribaloy alloy T-800 Tribaloy alloy T-900
1 2 3
Bal. Bal.
18 18
<0.08 <0.08
<1.5 16
28 22
<1.5
3.4 2.7
<1.0 <1.0
Nominal analysis is a guideline only for standard product. Does not include all incidental elements and may differ depending on the exact specification/standard used when ordering. When written certification to a standard is required, please specify this when ordering. Certain products can also be certified to AMS, SAE, and other standards. Please contact us for more details. Undiluted weld metal. * Depending upon the degree of work hardening. **ULTIMET is a registered trademark of Haynes International.
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Others
UNS
ASME/ AWS5
Hardness (HRC)6
5156 3943 4550 5357 2840 *
Bal.
32
16
2.45
<3.0
<1.0
<3.0
<2.0
<1.0
Bal. 28 0.25 3 5.5 <3.0 <1.5 <1.0 W73021 (SF)A 5.13 Stellite alloy 21 ECoCr-E Stellite alloy 25 Bal. Bal. Bal. Bal. Bal. 20 28 30 30 26 14 2 0.1 0.1 1.2 1.55 0.06 10 <3.0 <3.0 9 <1.0 4 8 5 <3.0 21 <3.0 <3.0 3 <1.0 <1.0 <1.0 <2.0 <1.0 <1.0 <1.0 <1.0 <1.0
17
0.1
Bal.
17
0.3%V
W80002
1727*
Nominal analysis is a guideline only for standard product. Does not include all incidental elements and may differ depending on the exact specification/standard used when ordering. When written certification to a standard is required, please specify this when ordering. Certain products can also be certified to AMS, SAE, and other standards. Please contact us for more details. Undiluted weld metal.
Electrodes are supplied in lengths of 350mm (14) and are boxed in 5.0 kg (11 lb) boxes. Depending upon the process parameters, the hardness of the welded deposit can vary from the values provided in the table above.
* Depending upon the degree of cold-working **ULTIMET is a registered trademark of Haynes International.
Coated Electrode
Arc
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Others
UNS
ASME/ AWS8
Hardness (HRC)9
5055 3844 4550 2840 *
Stellite alloy 21 LC
Bal.
26
0.1
6.0
<5.0
<1.5
2540 *
Stellite alloy 25 Stellite alloy 250 Stellite alloy 706 Stellite alloy 712 ULTIMET **
20 28 31 31 26
14 2
10 <3.0 <3.0 9
<1.0 4 8 5
R31233
Nistelle alloy C
17
0.1
Bal.
17
0.3%V
N30002
1727*
10 0.4 Bal. 23 2.9 1.6% W89634 (SF)A 5.21 3540 Deloro alloy 40 B ERNiCr-A 12 0.5 Bal. 35 3.5 2.2% W89635 (SF)A 5.21 Deloro alloy 50 B ERNiCr-B 13 0.7 Bal. 35 4.3 3.0% W89636 (SF)A 5.21 Deloro alloy 60 B ERNiCr-C 4752 5661
Bal.
17
0.2
<1.5
22
<1.5
1.3
4652
Nominal analysis is a guideline only for standard product. Does not include all incidental elements and may differ depending on the exact specification/standard used when ordering. When written certification to a standard is required, please specify this when ordering. Certain products can also be certified to AMS, SAE, and other standards. Please contact us for more details. 9 Undiluted weld metal. Please note that the hardness of the Deloro Ni-based alloys is very sensitive to dilution.
7 8
Depending upon the process parameters, the hardness of the welded deposit can vary from the values provided in the table above.
* Depending on the degree ofcold working. **ULTIMET is a registered trademark of Haynes International.
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Tungsten Electrode
Compared with other welding processes, for a given hardfacing alloy, the fast cooling rate of the laser process produces an overlay with a significantly higher hardness and finer microstructure. Laser Head
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Cr
30 30 28.5 29 28.5 28 30 32.5 27.5 28 20 26
W
13 13.5 4.6 4.5 4.6 4 8.5 17.5 15 7.5
C
2.5 0.7 1.2 1.1 1.35 1.7 1.45 2.55 0.25 0.30 0.1 0.5
Ni
<2.0 <2.5 <2.0 <2.0 <2.0 <2.0 <2.0 <2.0 2.6 1.5 10 10.5
Mo
<1.0 <1.0 <1.0 <1.0 <1.0 <1.0 <1.0 <1.0 5.4 12 <1.0 <1.0
Fe
<2.0 <2.5 <2.0 <2.0 <2.0 <0.5 <2.0 <2.0 <2.0 <3.0 2 <2.0
Si
<2.0 <1.0 <2.0 <2.0 <2.0 <2.0 <2.0 <1.0 <2.0 <2.0 <1.0 <1.0
ALLOY
Cr
9
C
<0.05 0.2 0.05
Ni
Bal. Bal. Bal.
Mo
Fe
<1.0 2.3 0.5
Si
2.5 3.2 3.0
Others
UNS
Hardness (HRC)2
2022 2731 3539
Stellite alloy 6 Stellite alloy 6LC Stellite alloy 6HC Stellite alloy 156 Stellite alloy 12
Deloro alloy 38 Deloro alloy 40 Deloro alloy 45 Deloro alloy 46 Deloro alloy 50
7.5 0.3 Bal. 2.5 3.5 1.7%B N99644 3842 15 9 11 12 15 21 0.35 0.05 0.45 0.6 0.7 1.3
N99645 N99646
Stellite alloy 20
Deloro alloy 55
Stellite alloy 21
Deloro alloy 60
Stellite alloy 22
Extrudalloy 50
Bal. 26 12.5 1.8 22 <1.0 <2.0 1.1 <0.5 R30002 4045 Bal. Bal. Bal. Bal. Bal. Bal. 26 28 28.5 29 29 26 14 <1.0 19.5 2 3.4 0.1 0.9 1.25 2.0 0.07 <2.0 <1.0 5 <2.0 <2.0 9.4 <1.0 <1.0 4.5 8.5 5 <2.0 20 <3.0 <2.0 <2.0 3 <1.0 <1.5 <1.0 <1.0 <1.0 <1.0 <1.0 <1.0 1%V <1.0 <1.0 <1.0 R30014 R31233 5560 2028 4652 3944 4653 2045 *
<0.5
<1.0
3.8
<1.0
10
Bal.
<1.0
<1%Mn
5563
<0.5 28 1.9 16.5 4.5 Bal. 1.3 0.8%Mn <0.5 <0.5 17 18 0.05 <0.03 11 13 2.6 2.6 Bal. Bal. 2.5 1.8 0.4%Mn 0.7%Mn <180 DPH <180 DPH
Delcrome 316
12 35 3.1 10 Bal. 4.8 0.3%Mn 4751 <0.5 25 2.5 14 7 Bal. 1.8 <1.0%
ULTIMET **
8.5 14 17 17 18
29 27 22 29 23
R30400
5157 5157 4550 5361 4855 Super Stelcar alloy 9365 Super Stelcar alloy 50 plus Super Stelcar alloy 60 plus
PTA and laser hardfacing powders are available in these standard powder particle size ranges and custom sizes upon request.
WM 53180m WE 63180m E 53150m G 38125m HK 63210m
Bal. Bal. Bal. Bal. Bal. Bal. Bal. Bal. Bal. Bal. Bal.
1525 * 1727 *
1 Nominal analysis is a guideline only for standard product. Does not include all incidental elements and may differ depending on the exact specifications/standard used when ordering. 2 Undiluted weld metal.
Depending upon the process parameters and extent of dilution, the hardness of the weld deposit may vary from that provided in the above table.
Nistelle alloy X
Nominal analysis is a guideline only for standard product. Does not include all incidental elements and may differ depending on the exact specification/standard used when ordering. Undiluted weld metal. Stellite Alloy F usually made to customer specification. * Depending upon the degree of work hardening. **ULTIMET is a registered trademark of Haynes International.
1 2 3
12
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Plasma Spraying
In the Plasma Spraying process, powder is softened or melted in the plasma gas stream, which also transfers the particles to the workpiece. The plasma arc is not transferred to the workpiece, it is contained within the plasma torch between an axial electrode and a water-cooled nozzle. The process is operated in normal atmosphere, in a shielding gas stream (e.g., argon), in a vacuum, or under water. Due to the high temperature of the plasma gas stream, the plasma spray process is especially suitable for spraying high melting-point metals as well as their oxides.
Powder Delivery
Powder
Spray Nozzle
Flame Flame
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POWDER TYPE
WC-12Co WC-12Co
HARDNESS
(depends on deposition method & parameters)
Ni
Cr
W
Bal. Bal.
C
5.5 5.5
PRODUCT
JK571
11401296 DPH 53/10 R15N Agglomerated, sintered & densified. 9601150 DPH 8993 R15N
(equiv. to HRC: ~6771)
HARDNESS Others
Si 2
(depends on deposition method & parameters)
Ni
2.5
Cr
28
Mo
5.5
C
0.25
45/10
Agglomerated, sintered & densified.
400520 DPH
JK572 JK573
JK114
WC-12Co
45/10
Agglomerated, sintered & crushed.
12
Bal.
29.5 25.5 30
1.4
Si 1.5
31 1
Bal. Bal.
10.5
7.5 12
0.5 2.5
JK117
53/15
Agglomerated & sintered.
JK575
(Also sold as JK7201)
JK119
WC-9Co
Bal.
4.2
45/5
Sintered & crushed, blocky.
JK576 6 Bal. 28 4.5 1.1 Si 1.1 495580 DPH (Also sold as JK7206) 81.586.5 R15N (equiv. to HRC: ~4354) JK577 SF6 Bal. 14.5 19 7.5 0.7 Si 2.5 635790 DPH (505-525 when fused) ~ 85.5 R15N B 1.6 (equiv. to HRC: ~5051)
(Also sold as JK7225) Mn 1.5 8285.5 R15N (equiv. to HRC: ~4350) (varies strongly depending on spray parameters)
JK120H
WC-10Co-4Cr 10 4 Bal. 5.4 11601370 DPH (Also sold as JK7109) 9395 R15N
(equiv. to HRC: ~7173)
45/5
Agglomerated, sintered & densified.
53/10
JK120P JK125
53/10
Agglomerated, sintered & densified.
JK579
25
Bal.
10
20
15
0.1
Si 1
450490 DPH
53/10
JK6189
A mixed carbide with 6 20 Bal. 5 9001100 DPH nickel 70%(W, Cr)xCy 8992 R15N 25%WC 6%Ni (equiv. to HRC: ~6670)
with large carbides
53/10
Agglomerated sintered & densified.
WC 10Ni
10
Bal.
3.7
Not available
53/10
Sintered & crushed.
POWDER TYPE
HARDNESS
(depends on deposition method & parameters)
Ni
Cr
PRODUCT
JK554
HARDNESS Others
Si 2.6
(depends on deposition method & parameters)
Ni
Cr
8.5
Mo
29
C
<0.08
450600 DPH
JK558H
JK558P
Typically used with carbon fuel 83.588.5 R15N (Also sold as JK7580) (equiv. to HRC: ~4656)
455620 DPH
53/10
T-900 T-900
Bal. Bal.
16 16
18 18
23 23
<0.08 <0.08
Si 2.7 Si 2.7
45/5 53/10
Bal.
26
0.06
Si 0.3
~ 500 DPH
53/20
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PRODUCT
ALLOY NAME
PRODUCT
ALLOY NAME
HARDNESS
(depends on deposition method & parameters)
JK347 Nistelle 2347 Bal. 5 AI 6 332336 DPH 75.378.1 R15N Bal. AI 5 285335 DPH JK350 Nistelle 2350 (Also sold as JK7301) 7176 R15N JK557 Tribaloy T-700 (Also sold as JK7570) JK584 Deloro 40 Bal. Bal. 2.5 15.5 7.5 32.5 <0.08 0.25 Si 3.4 Si 3.5 B 1.7 Si 4 B 2.3 Si 4.4 B 3.1 ~ 700 DPH ~ 40 HRC ~ 50 HRC
Deloro 55 Deloro 55 Bal. 4 12 0.6 Si 4.0 B 2.7 Deloro 60 Deloro 60 Bal. 4 15 0.7 Si 4.4 B 3.1
Nistelle C276 Bal. 5 15.5 3.8 16 Not Available Nistelle C276 Nistelle 625 Bal. <5 21.5 9 (Nb+Ta) 385-460 DPH Nistelle 625 3.7 79-83 R15N
Bal. 2.9 11 0.45 JK585 Deloro 50 (Also sold as JK7650) JK586 Deloro 60 Bal. 4 15 0.7
~ 60 HRC
53/10
Nistelle 2315 Bal. 20 Not Available Nistelle 2315 Nistelle 2350 Nistelle 2350 Bal. AI 5 ~ 70 HRB
45/5
JK591P Nistelle
(Also sold as JK7391)
C Bal. 5.5 16.5 4.5 17 375390 DPH ~ 80 R15N (equiv. to HRC: ~39-41) Nistelle Super C Bal. 23 18 410 DPH (equiv. to HRC: ~ 41)
63/15
Nistelle Super C
(Jet Kote)
PRODUCT
Delcrome 90 Delcrome 92
ALLOY NAME
Delcrome 90 Delcrome 92
HARDNESS
(depends on deposition method & parameters)
Ni
Fe
Bal. Bal.
Cr
27
C
2.8 3.7
Others
Si 0.5 Mo 10
Bal. 16 16.5 380440 DPH JK594 Nistelle C-4C (Also sold as JK7392) ~ 8183 R15N (equiv. to HRC: ~40-44) JK625 Nistelle 625 Bal. <5 21.5 9 (Nb+Ta) 3.7 (Also sold as JK7342)
53/20
275470 DPH (Also sold as JK7341) 72.581.5 R15N (equiv. to HRC: ~25-45)
Bal.
18
19
0.06
(Nb+Ta) 5 AI 0.5, Ti 1
45/15
316L Stainless Steel 13 Bal. 17 0.03 Mo 2.5 ~ 180 DPH Delcrome 316L/317 Si 1 Tristelle TS-3 Tristelle TS-3 12 10 Bal. 35 3 Si 5 >55 HRC
Powders labelled JK are intended primarily for HFOV spraying with the Jet Kote or Diamond Jet torches but can also be used for plasma spraying. Some of these powders may be listed below in different nominal size ranges for other thermal spray processes. * Diamond Jet is a registered trademark of Sulzer Metco.
PRODUCT
HARDNESS
(depends on deposition method & parameters)
PRODUCT
T-400
Bal.
8.5
29
<0.08
Si 2.6
18
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Powder Welding
A specially-designed oxy-acetylene torch is used for powder welding. The workpiece is heated with the torch, powder is introduced into the gas stream from the integral powder hopper, and transferred to the workpiece through the flame. The powder-weld process is ideal for the deposition of smooth, thin, well-bonded layers on flat surfaces on a wide range of substrates, including cast iron. The hardfacing takes place at lower temperatures, which minimizes oxidation and distortion of the workpiece and enables easy surfacing of edges. Powder Hopper
Powder Delivery
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21
Cr
19
W
13
C
1.3
Ni
13.5
B
2.45
Fe
3
Si
2.8
Others
Hardness (HRC)2
5060 4048 4252 5565 4555
Stellite alloy SF6 Stellite alloy SF12 Stellite alloy SF20 Stellite alloy 157
Bal. 19 7.5 0.8 14 1.7 3 2.6 Bal. Bal. Bal. 19 19 21 9 15 4.5 1.1 1.6 0.1 14 14 <2.0 1.9 2.9 2.5 3 3 <2 2.8 3.2 1.6
3 3 9
180230 DPH 240280 DPH 1824 2228 2730 2939 3337 3242 3442 3542 3845 4250 4753 5260 5765 5363
Deloro alloy 34 4.5 0.15 Bal. 1.2 0.3 2.8 2.5%Mo 2.2% Other Deloro alloy 35 Deloro alloy 36 Deloro alloy 38 Deloro alloy 40 Deloro alloy 45 Deloro alloy 50 Deloro alloy 55 Deloro alloy 60
4 7 7.5 9 11 12 15
2%Cu 3%Mo
INNOVATIVE
ADVANCED
OUR MISSIoN
Kennametal delivers productivity to customers seeking peak performance in demanding environments by providing innovative customized and standard wear-resistant solutions, enabled through our advanced materials sciences, application knowledge, and commitment to a sustainable environment.
PRODUCTIVE
Deloro alloy 75 17 0.9 Bal. 3.5 4.5 4.5 Deloro alloy 6116 15.3 0.03 Bal. 4.0
COMPOSITE ALLOYS
Stelcar Powders Super Stelcar 40 Super Stelcar 50 Super Stelcar 60 Super Stelcar 70 Blends of WC, WC/Co and Deloro alloy powders. Size and chemistry to customer requirements Blend of tungsten carbide (40%) and Deloro 50 alloy (60%) Blend of tungsten carbide (50%) and Deloro 50 alloy (50%) Blend of tungsten carbide (60%) and Deloro 50 alloy (40%) Blend of tungsten carbide (70%) and Deloro 50 alloy (30%)
Nominal analysis is a guideline only for standard product. Does not include all incidental elements and may differ depending on the exact specification/standard used when ordering. Undiluted weld metal. Rockwell (HRC) units unless otherwise stated.
Spray-fuse powders are available in these standard size ranges: M S 45106 m (Metco torch) 38106 m (Eutectic torch)
Powder Welding powders are available in these standard size ranges: KS KX K 2063 m 20106 m 2075 m
Depending upon the process parameters and extent of dilution, the hardness of the weld deposit may vary from that provided in the above table.
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SUSTAINABLE ENGINEERING
With decades of experience, Kennametal offers you some of the most effective opportunities for sustainable manufacturing in the industry using the synergies of superior engineering, leading technology, and tailor-made solutions. Our comprehensive range of products, local support, and excellent customer service make Kennametal your complete supplier of sustainable tooling solutions.
UK S AL ES OF F I CE
Kennametal Stellite Unit 3, Birch Kembrey Business Park Swindon SN2 8UU UK Phone: 44.1793.498500 Fax: 44.1793.498501
US S AL ES OF F I CE
Kennametal Stellite 1201 Eisenhower Drive North Goshen, Indiana 46526 USA Phone: 1.574.534.2585 Fax: 1.574.534.3417
CON TACT US
saleshad@stellite.com www.kennametal.com/stellite
Successful project engineering requires planning, teamwork, and disciplined execution. Through our extensive experience in developing and implementing new project engineering strategies, Kennametal has pioneered a proven methodology to help you manufacture new products and bring them to market quickly. Service deliverables are carefully outlined and jointly agreed to before the project begins. We formally evaluate progress and results with you throughout the project through our stage-gate management system.
Kennametal can provide your engineering teams and machine tool builders with process engineering support, advanced metalcutting technologies, and project management expertise to help you achieve your sustainability goals. With our best-in-class process, youll experience accelerated time-to-market, lower overall costs, and reduced risks to implement new technologies.
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HARDFACING ALLOYS
W O R LD HE AD QU ARTE RS
Kennametal Inc. 1600 Technology Way Latrobe, PA 15650 USA Tel: 800.446.7738 (United States and Canada) E-mail: ftmill.service@kennametal.com
EUR O PEA N HE AD QU ARTE RS
Kennametal Europe GmbH Rheingoldstrasse 50 CH 8212 Neuhausen am Rheinfall Switzerland Tel: 41.52.6750.100 E-mail: neuhausen.info@kennametal.com
A SIA -PA C IFIC HE AD QU ARTE RS
Kennametal Singapore Pte. Ltd. ICON@IBP #01-02/03/05 3A International Business Park Singapore 609935 Tel: 65.6.2659222 E-mail: k-sg.sales@kennametal.com
INDIA H EA D QU ARTE RS
Kennametal India Limited 8/9th Mile, Tumkur Road Bangalore - 560 073 Tel: 91.80.2839.4321 E-mail: bangalore.information@kennametal.com
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