DETAILS
Iron-based with a large amount of chromium carbides in a hard matrix. These alloys are designed for severe sliding abrasion accompanied by low or moderate impact
Features
- Deposits include higher carbon and chrome levels than LincoreĀ® 60-O
- Recommended for use on wear plate, coal pulverizer rolls, earth engaging tools, and on slurry pipe and elbows
- To be used on carbon, low alloy, manganese, stainless steels and cast iron
- Recommended for use on wear plate, coal pulverizer rolls, earth engaging tools, and on slurry pipe and elbows
Typical Applications
- Screw augers
- Ore chutes & wear plates
- Crusher rolls
- Ripper teeth
Welding Positions
- Flat/Horizontal
Disclaimers
Service Information
You May Also Need
BEFORE USE, READ AND UNDERSTAND THE SAFETY DATA SHEET (SDS) FOR THIS PRODUCT AND SPECIFIC INFORMATION PRINTED ON THE PRODUCT CONTAINER. SDS Search page
See test result disclaimer
MECHANICAL PROPERTIES
Classification | Number of layer | Hardness Rockwell C | Mass Loss (G65) |
---|---|---|---|
Typical Result | 1 Layer | 55 | 0.27 |
Typical Result | 2 Layers | 61 | 0.20 |
Typical Result | 4 Layers | 62 | 0.14 |
DEPOSIT COMPOSITION
Classification | Number of layer | %C | %Cr | %Mn | %Si |
---|---|---|---|---|---|
Typical Result | 1 Layer | 3.9 | 18.8 | 1.7 | 0.9 |
Typical Result | 2 Layers | 4.8 | 26.5 | 2.1 | 1.2 |
Typical Result | 4 Layers | 5.7 | 29.4 | 2.3 | 1.4 |
TYPICAL OPERATING PROCEDURES
Diameter | Polarity |
ESO
mm (in.) |
Wire Feed Speed
m/min (in/min) |
Voltage
volts |
Approx. Current
amps |
Deposition Rate
kg/hr (lb/hr) |
---|---|---|---|---|---|---|
7/64" (2.8 mm) | DC+ | 29 (1) | 2.5 (100) | 28 | 280 | 4.4 (9.6) |
7/64" (2.8 mm) | DC+ | 29 (1) | 5.1 (200) | 31 | 420 | 8.9 (19.7) |
7/64" (2.8 mm) | DC+ | 29 (1) | 7.6 (300) | 33 | 500 | 13.5 (29.8) |
1/8" (3.2 mm) | DC+ | 38 (2) | 2.5 (100) | 27 | 375 | 6.4 (14.0) |
1/8" (3.2 mm) | DC+ | 38 (2) | 4.4 (175) | 29 | 500 | 11.4 (25.1) |
1/8" (3.2 mm) | DC+ | 38 (2) | 6.7 (265) | 31 | 625 | 16.6 (36.7) |
NOTES
Note |
---|
Postweld heat treatment up to 1400°F (760°C) will not affect abrasion resistance very significantly, but will affect hardness to some extent. |