exclusion

MEGAFIL® A 864 M

MEGAFIL®A 864 M is a high-alloy metal cored wire for hardfacing using Ar-CO2 mix. Can also be used without shielding gas. The hardfacing contains sufficient special carbides formed with boron and therefore has excellent resistance to abrasion from sand and minerals. The weld metal is machinable only by grinding. Stringer bead technique is recommended. The …

FabTuf® 960

FabTuf® 960 is a tubular, metal-cored wire that is designed for overlay applications, providing moderate impact strength and excellent metal-to-metal wear resistance. Three layer hardness levels of 55-60 Rc make this product an excellent choice for moderate impact and abrasion conditions. Single or Multiple pass applications. Ore drag lines, dredge parts, muller tires, extruder worms, …

Tube-Alloy® 242-O

Tube-Alloy® 242-O is a self-shielded, flux-cored wire that deposits a premium martensitic alloy steel. It has excellent resistance to adhesive (metal-to-metal) wear. The deposit’s good resistance to abrasion and impact makes it a versatile overlay alloy. It is designed for use as an overlay on carbon and low-alloy steels or a base of Tube-Alloy® Build …

Tube-Alloy® Build Up-O

Tube-Alloy® Build Up-O is a self-shielded, flux-cored wire that deposits a low alloy steel. It is designed for build-up carbon and low alloy steels only. The weld metals have good compressive strength and impactresistance, making them excellent bases for more abrasion-resistant alloys. The deposits have excellent resistance to cracking, even in multiple layers, and are well …

VertiWear® 600

VertiWear® 600 deposits a multi-purpose martensitic steel alloy. It has excellent operator appeal in all positions and can be used to surface mild and low alloy steel components subject to moderate abrasive wear and medium to high impact. Deposits can be applied crack-free in multiple layers with proper procedures. VertiWear® 600 is a gas-shielded, flux-cored, …

MEGAFIL® A 760 M

MEGAFIL® A 760 M is a metal-cored semaless wire designed for wear resisting parts subject to heavy impact and shock. The interpass temperature should be maximum 250 °C (482 °F). The weld metal requires no buffer layer except on materials considered critical. In this situation, MEGAFIL® 731 B is sugegsted to be used as a …