The Working Scenarios of Industrial Straight Blades
  Industrial straight blades are commonly used cutting tools in the industrial field, characterized by sharpness, durability, and high cutting precision. They are widely applied in scenarios requiring precise cutting and batch processing. The following are their main working scenarios and application characteristics:
 

I. Metal Processing Industry

Application Scenarios:
 

1. Plate cutting: Used for cutting metal plates such as steel plates, aluminum plates, and copper plates, commonly seen in mechanical manufacturing, shipbuilding, and automotive manufacturing.
2. Profile processing: Cutting metal profiles (such as angle steel, channel steel, and I-beam), or truncating and beveling metal pipes.
3. Component processing: In the fine processing of metal components, trimming edges and deburring surfaces.

 
Characteristics:
 

1. Require high blade hardness (typically made of high-speed steel or cemented carbide) to resist the high-intensity impact and wear of metals.
2. Often used with automated equipment (such as plate shears, punching machines, and CNC cutting machines) to achieve large-scale and high-precision cutting.

II. Plastics and Rubber Products Industry

Application Scenarios:
 

1. Plastic plate/film cutting: Cutting plastic plates, films, and sheets in plastic packaging and building materials production.
2. Rubber product processing: Cutting rubber sheets, tire tread rubber, seals, etc., commonly used in rubber product factories and tire production lines.
3. Injection molding trimming: Trimming burrs from injection-molded plastic parts (such as gears and casings).

 
Characteristics:
 

1. Require sharp blade edges and anti-adhesion properties to prevent melting or tearing of plastic or rubber materials during cutting.
2. Often use circular blades or straight blades with rolling cutters and slitting machines for continuous production.

III. Paper and Packaging Industry

Application Scenarios:
 

1. Paper processing: Cutting paper, cardboard, and corrugated paper in paper mills or printing houses to produce cartons, boxes, and labels.
2. Packaging material cutting: Cutting plastic packing straps, fiber belts, aluminum foil, and other packaging materials, or trimming packaging bags before sealing.
3. Print die-cutting: Matching with die-cutting machines to perform special-shaped cutting on printed materials (such as business cards and greeting cards).

 
Characteristics:
 

1. Blades need to stay sharp to ensure smooth cut edges and reduce dust from paper fiber breakage.
2. Mostly use high-speed rotating circular blades or fixed straight blades in conjunction with slitting and paper cutting machines.

IV. Leather and Textile Industry

Application Scenarios:
 

1. Leather processing: Cutting leather fabrics for making shoes, bags, and clothing, commonly used in leather goods factories and shoe factories.
2. Textile cutting: Cutting fabrics, non-woven fabrics, and chemical fiber textiles, applied in garment production, home textile manufacturing, and carpet processing.
3. Plush toy processing: Cutting filling cotton and plush fabrics, or trimming toy edges.

 
Characteristics:
 

1. Blades need both sharpness and wear resistance to adapt to cutting flexible materials and prevent fabric fuzzing or deformation.
2. Often use manual cutting knives, electric cutting machines, or automatic cutting beds (such as computer-controlled leather cutting machines) to improve cutting efficiency and precision.

V. Wood and Composite Material Processing

Application Scenarios:
 

1. Wood cutting: Cutting wooden boards, squares, and plywood in furniture manufacturing and woodworking workshops for making furniture parts or building materials.
2. Composite material processing: Cutting fiberboards, density boards, carbon fiber composites, and fiberglass boards, commonly used in aerospace and automotive lightweighting fields.
3. Bamboo product processing: Cutting bamboo slices and boards for making bamboo furniture and crafts.

 
Characteristics:
 

1. Blades need impact resistance to handle the irregularity of wood grain and the high hardness of composite materials.
2. Often used with circular saws, band saws, and CNC machining centers to achieve complex shape cutting.

VI. Food and Pharmaceutical Industry

Application Scenarios:
 

1. Food processing: Cutting meat, vegetables, bread, candies, etc. (requiring food-grade stainless steel blades to ensure hygiene and safety), such as meat slicers and vegetable dicing machines.
2. Pharmaceutical packaging: Cutting medical packaging materials (such as aluminum-plastic films and medical paper-plastic bags), or trimming pharmaceutical blister plates.

 
Characteristics:
 

1. Blade materials must meet hygiene standards (such as 304 stainless steel) for easy cleaning and disinfection to prevent contamination.
2. The cutting process needs to be stable and precise to avoid damaging food shapes or the sealing of pharmaceutical packaging.

 
The performance of industrial straight blades directly affects production efficiency and product quality. It is essential to select appropriate models and materials according to specific working conditions.
 
Choose Dyyrent blades to provide efficient and reliable tool solutions for processing in various industries with professional quality.