Diameters / Packaging

Diameters	25 lb (11.3 kg) Steel Spool	50 lb (22.7 kg) Coil
1/16 in (1.6 mm)	ED031129
5/64 in (2.0 mm)	ED031130
7/64 in (2.8 mm)		ED011164

Lincore® M

Flux-Cored Self-Shielded (FCAW-S)

CLASSIFICATIONS:
EN/ISO : T Fe9

Lincore® M Flux-Cored Wire is an austenitic manganese deposit that work-hardens, deposit resists severe impact as well as moderate abrasion on typical applications including Hammers, Dredge parts, Crushers, Breaker bars and Buckets (Severe Impact)

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DETAILS

LINCORE® M Flux-Cored Wire is recommended for build-up and repair of Hadfield-type austenitic manganese materials as well as carbon and low alloy steels. Unlimited layers with proper preheat and interpass temperatures and procedures As with all austenitic manganese welding products, interpass temperatures should be limited to 260°C (500°F) maximum. A stringer bead, or at most, a slight weave is recommended to limit heat build-up. Excessive heat build-up causes manganese carbide precipitation which damages the toughness of austenitic manganese. Composition and properties depend upon dilution. Single layer deposit properties depend upon base metal and/or build-up material.

Features

Deposit resists severe impact as well as moderate abrasion
Produces an austenitic manganese deposit that work-hardens
Recommended for build-up and repair of Hadfield-type austenitic manganese materials as well as carbon and low alloy steels

Typical Applications

Hammers
Dredge parts
Crushers
Breaker bars
Buckets

Welding Positions

Flat

Service Information

Documentation

Lincore® M.pdf

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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	Hardness Rockwell C
Typical Result	18-28
Typical Result, Work-hardened	30-48

DEPOSIT COMPOSITION

Classification	%C	%Cr	%Mn	%Ni	%Si
Typical Result	0.6	4.9	13.0	0.5	0.4

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)
0.045 in (1.1 mm)	DC+	25 (1)	5.1 (200)	22	80	1.5 (3.3)
0.045 in (1.1 mm)	DC+	25 (1)	8.9 (350)	24	145	2.7 (6.0)
0.045 in (1.1 mm)	DC+	25 (1)	12.7 (500)	26	185	4.4 (9.6)
1/16 in (1.6 mm)	DC+	30 (1 1/8)	3.8 (150)	23	130	2.2 (4.9)
1/16 in (1.6 mm)	DC+	30 (1 1/8)	6.4 (250)	25	200	3.9 (8.6)
1/16 in (1.6 mm)	DC+	30 (1 1/8)	8.9 (350)	27	250	5.6 (12.4)
5/64 in (2.0 mm)	DC+	32 (1 1/4)	3.2 (125)	24	240	2.9 (6.4)
5/64 in (2.0 mm)	DC+	32 (1 1/4)	4.4 (175)	27	300	4.2 (9.3)
5/64 in (2.0 mm)	DC+	32 (1 1/4)	6.4 (250)	29	360	6.2 (13.6)
7/64 in (2.8 mm)	DC+	45 (1 3/4)	1.9 (75)	25	240	3.5 (7.8)
7/64 in (2.8 mm)	DC+	45 (1 3/4)	3.2 (125)	27	360	6.2 (13.6)
7/64 in (2.8 mm)	DC+	45 (1 3/4)	3.8 (150)	28	395	7.5 (16.6)
7/64 in (2.8 mm)	DC+	64 (2 1/2)	1.9 (75)	25	240	3.6 (8.0)
7/64 in (2.8 mm)	DC+	64 (2 1/2)	4.4 (175)	30	400	8.8 (19.5)
7/64 in (2.8 mm)	DC+	64 (2 1/2)	5.7 (225)	32	455	11.6 (25.6)

NOTES

Note
As with all austenitic manganese welding products, interpass temperatures should be limited to 260°C (500°F) maximum.
A stringer bead, or at most, a slight weave is recommended to limit heat build-up. Excessive heat build-up causes manganese carbide precipitation that damages the toughness of austenitic manganese.