All of our shear blades are crafted from the highest-quality alloys using close tolerance quality control standards. Our “Made in India” shear blades provide optimum performance and extended blade life, meaning that you receive more tons per edge, while reducing downtime due to blade changes. Extended blade life combined with less downtime leads to a more productive and profitable production shearing operation.
Our blades are available in single-edge, two-edge, four-edge, and bowtie configurations. Each of these configurations are available in different alloy grades to suit your individual needs. All of our shear blades are thru hardened to ensure consistent hardness; our in-house hardening and tempering furnace can handle shear blades up to 3 meters in length.
Edge I : Premium grade of D3 High Carbon/High Chrome tool steels, providing maximum life between regrinds when cutting mild steel up to 6mm thick on mechanical shears. This grade is also ideal for shearing mild steel up to 6mm thick on hydraulic shears, due to the lack of impact and a slower cutting action. For shearing stainless steels, most OEM’s recommend that you reduce stated capacities by 50%.
Edge II : Premium grade of D2 High Carbon/High Chrome tool steels, providing maximum life between regrinds when cutting mild steel up to 12mm thick on hydraulic shears, due to the lack of impact and a slower cutting action. For shearing stainless steels, most OEM’s recommend that you reduce stated capacities by 50%.
Edge III : Premium grade modified alloy tool steels, providing a maximum number of cuts before dulling when cutting mild steel grades up to 20mm thick. These alloys have a high degree of toughness, combined with excellent shock resistance, making them equally suitable for shearing high tensile, heavy cross section steels as well.
Edge IV : Premium grade modified alloy tool steels, providing a maximum number of cuts before dulling when cutting mild steel grades up to 1inch thick. These alloys have a high degree of toughness, combined with excellent shock resistance, making them equally suitable for shearing high tensile, heavy cross section steels as well. For shearing stainless steels, most OEM’s recommend that you reduce stated capacities by 50%.