The multi blade embedded steel straight knife produced by LROND Factory is an upgraded composite industrial cutting tool that optimizes and upgrades the pain points of traditional single blade straight knives, such as short lifespan and high cost of large-sized tools. It is suitable for ultra long and large volume cutting conditions and is widely used for high-precision cross cutting and cutting of various materials such as paper, film, non-woven fabric, fiber, fabric, plastic, foil, etc. It is an efficient, cost-effective, and durable core cutting accessory in industrial mass production.
The cutting tool adopts mature and stable nano welding embedding technology, using high carbon steel as the cutting body substrate. The substrate has good toughness and high strength, and is not easily deformed or broken as a whole, perfectly supporting the stable operation of ultra long and large volume cutting bodies. The cutting edge is carefully selected and embedded with high-end high-performance wear-resistant materials such as high-speed alloy steel and tungsten steel hard alloy. Compared with the overall cutting tool that uses all hard alloy and high-speed steel, it greatly reduces the production and procurement costs of large-sized and large-sized straight knives, successfully achieving a high-quality solution with high-end wear-resistant cutting edge performance and economical procurement costs, balancing quality and cost-effectiveness.
Compared to ordinary steel embedded straight knives, this product is equipped with an exclusive multi blade optimization process, innovatively upgrading the multi blade structure. Without changing the adaptability of the blade body or increasing the cost of use, the effective number of blade edges of the tool is doubled, and the overall service life is doubled. It completely solves the drawbacks of traditional tool replacement after single blade wear, significantly reduces the frequency of tool replacement, equipment downtime and consumables consumption, and significantly improves production efficiency.