In heavy-duty operations such as scrap steel recycling, end-of-life vehicle dismantling, steel structure demolition, and shipbreaking, the excavator hydraulic shear is widely recognized as a "demolition powerhouse." The hydraulic shear blade, in turn, is the core component that determines cutting efficiency, service life, and operational costs. A high-quality hydraulic shear blade can not only easily cut through rebar, steel plates, and I-beams but also withstand long-term impact, wear, and fatigue stress, helping to reduce costs and improve efficiency for engineering projects.
Cutting force and penetration speed, enabling clean, one-stroke cuts without dragging
Cut surface flatness, free of burrs and deformation for easier recycling and reuse
Durability, reducing chipping, edge rolling, and breakage to minimize downtime for blade replacement
Adaptability, matching excavators of different tonnages and various hydraulic shear models.
Scrap steel recycling: Cutting scrap rebar, steel plates, steel pipes, and profiles
Vehicle dismantling: Cutting car frames, chassis, wheel hubs, and engine brackets
Engineering demolition: Shearing building steel structures, I-beams, channel steel, and embedded parts
Shipbreaking: Processing hull plates, keels, ribs, and other thick plate components
Waste material processing: Cutting iron drums, pipes, metal structures, and other recycled materials
