The H-Wedge chisel is specifically engineered for breaking and excavating applications.
Its design features a sharp, wedged edge that concentrates the impact force, allowing for precise and powerful penetration into rocks, concrete, and other materials. The H-Wedge chisel is particularly effective in narrow spaces and tight corners, making it suitable for tasks such as trenching, foundation work, and general excavation.
The Conical Point chisel, as the name suggests, has a conical shape with a pointed tip. This design enables it to deliver high impact energy to a single point, making it ideal for breaking through extremely hard materials. The sharp point allows for accurate positioning and efficient penetration, while the conical shape helps to distribute the force evenly, reducing the risk of damage to the surrounding area. The Conical Point chisel is commonly used for tasks such as quarrying, mining, and rock drilling.
The Blunt Breaker Chisel is designed for heavy-duty demolition work. Its robust and durable construction enables it to withstand the demanding conditions of breaking up reinforced concrete, asphalt, and other tough materials. The blunt tip of the chisel allows for increased surface area contact, distributing the impact force and minimizing the risk of spalling or flying debris. The Blunt Breaker Chisel is commonly used in road construction, building demolition, and renovation projects.
Partsdic® ensures that these hydraulic hammer chisels meet the highest standards of quality and performance.
Each chisel is made from high-grade materials that are heat-treated to enhance strength, durability, and wear resistance. The precise design and manufacturing processes ensure optimal performance and longevity in demanding working conditions.
Partsdic® also provides compatibility with Atlas Copco hydraulic hammers, guaranteeing a seamless fit and compatibility with the equipment. This ensures that the chisels can be easily installed and used with Atlas Copco hydraulic hammers, minimizing downtime and optimizing productivity on the job site.
