The steel embedded straight knife produced by LROND Factory: The product adopts nano welding embedding technology to create a composite blade structure, with high carbon steel as the tool substrate, ensuring the overall toughness, strength and stability of the blade, and eliminating deformation, fracture and other problems of large volume and ultra long size straight knives during high-speed cutting and heavy-duty operations. The core cutting edge of the cutting tool is carefully selected and embedded with high-performance wear-resistant materials such as high-speed alloy steel, tungsten steel, and hard alloy. It abandons the high cost drawbacks of traditional high-performance steel cutting tools, while retaining the cutting advantages of high-end wear-resistant materials. It significantly reduces the production and use costs of ultra long and large volume straight knives, and creates a high-quality cutting tool solution for customers with high-end edge performance and mid-range procurement costs.
This product supports personalized customization and adaptation. It can flexibly select different grades of high-speed alloy steel, tungsten steel, hard alloy and other cutting edge materials according to the actual cutting material characteristics, thickness and hardness of the customer, as well as differences in equipment installation structure and cutting conditions, to accurately match various differentiated cutting needs. Relying on precision nano welding technology and refined grinding technology, the cutting edge of the tool is tightly integrated without gaps and has high flatness, completely solving the problems of delamination and blade breakage of traditional welding tools. The finished product has the core advantages of high cutting sharpness, smooth and burr free cutting surface, high blade hardness, wear resistance and durability, and long service life. It can maintain stable cutting accuracy for a long time, effectively reduce tool changing frequency, equipment downtime loss and later operation and maintenance costs, and perfectly adapt to industrial continuous, high-precision, and high-strength cutting production scenarios.