Weiler® 5 X 1/4 Tiger Inox Ty27Grind Whl 5/8-11 Ah Part# - 58122

1 PK (10 EA = 1 PK)
Manufacturer: Weiler®
$64.07
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Weiler® 5 X 1/4 Tiger Inox Ty27Grind Whl 5/8-11 Ah Part# - 58122

Brand: WEILER®

Part Number: 58122

Weight: 0.57 lbs

Country of Origin: SLOVENIA

Minimum Order Qty: 1 PK (10 EA = 1 PK)

Features: AGGRESSIVE GRINDING: Tiger type 27 grinding wheels are designed with fiberglass cut back from the edge to provide instant aggressive grinding right out of the box | CONTAMINANT-FREE INOX WHEELS: Contains less than 0.1% iron, sulfur, and chlorine, resulting in a worry-free solution for stainless steel applications | LONG WHEEL LIFE: Triple fiberglass reinforcement provides added strength for aggressive stock removal and long wheel life on heavy duty applications | QUICK SPIN-ON, SPIN-OFF CHANGEOVER: The 5/8-inch - 11 nutted metal hub allows for quick spin-on, spin-off changeover and eliminates cross-threading or sticking to spindle due to heat build-up. Used with die grinder and right angle air die grinder | SPECIFICATIONS: 5-Inch Dia, 1/4 Thickness, Tiger Inox Type 27 Grinding Wheel, INOX24R, 5/8"-11 Nut, Max RPM 12,200

Tiger INOX 5 inch type 27 grinding wheels are specifically designed for high performance when grinding stainless steel. These wheels incorporate a Contaminant-free bond that delivers a worry-free solution for stainless steel applications. The flat profile with depressed center allows for a wide range of grinding angles (0-45°). 1/4" wheel thickness is ideal for heavy stock removal, scale removal, weld removal, weld blending, edge beveling and torch-cut softening with a right angle grinder. The 5/8" - 11 nutted metal hub allows for quick spin-on, spin-off changeover and eliminates cross-threading or sticking to spindle due to heat build-up. Tiger type 27 grinding wheels are designed with fiberglass cut back from the edge to provide instant aggressive grinding right out of the box. Engineered and manufactured to maximize performance and minimize operating costs in the most demanding surface conditioning applications. The use of superior construction, the highest quality materials and the most stringent manufacturing processes deliver the lowest cost-of-use and most consistent performance in heavy production environments.