Plate

AR steel for extreme, high-impact wear conditions

Ultimate chromium carbide plate for extreme wear resistance, durability, and moderate impact performance

Industry-leading abrasion resistant pipe lasting up to 6x longer

Wear resistant pipe lasting up to 2x longer

Top-of-the-line couplings, flanges, weld rings, end grooves, and reducers

Rugged, customizable diversion valves for improved safety, efficiency, and reduced downtime

pipe

Bar & Pin

Triloy alloy shafting bar for unmatched strength, machinability, and durability

Special treated pins for ultimate wear resistance and toughness

Welding Consumables

Superior joining for high-strength metals

Versatile welding solution for high-strength and corrosion-resistant metals

Economical hard-facing alloy for balanced impact and abrasion resistance

Superior metal-cored welding for exceptional impact and abrasion resistance

Premium chromium carbide welding for exceptional wear resistance

Piping Solutions

Valves

Ultra tech Pneumatic Diversion valves

Enhanced Safety and
Efficiency in Tough Conditions

Ultra Tech pneumatic Diversion valves

Dramatically increase system safety, efficiency and productivity with remote line switching in as little as 30 seconds. Systems equipped with diversion valves benefit from more efficient operation and increased safety due to reduced exposure hours. Ultra Tech pneumatic diversion valves have a rugged, low-profile design that holds up to the most demanding mining applications. They can be fit for 5” (127mm), 6” (152.4mm) or 8” (203.2mm) lines and equipped with a variety of standard and custom end styles.

Why choose Ultra Tech pneumatic Diversion valves

SIGNIFICANTLY INCREASE SAFETY DUE TO REDUCED EXPOSURE HOURS

MAKE EASY AND EFFICIENT CHANGES, EVEN UNDER PRESSURE, DUE TO VALVE DESIGN AND
CONSTRUCTION

REDUCE DOWNTIME AND INCREASE PRODUCTIVITY DUE TO DECREASED INLINE CHANGE TIMES

Rugged design holds up to the most demanding mining applications

Remotely switch lines
in as little as 30
seconds

Perfect for
applications with an
existing air supply