Products Description
Advantages of molding saw blade milling cutter
1.High quality material
The forming saw blade milling cutter is made of high-quality GU20 carbide with a purity of 99.9%, which is 30% harder and 50% more wear-resistant than ordinary alloys. It can remain sharp during long-term high-intensity cutting, reducing cutting efficiency and loss caused by wear. Product quality issues; at the same time, it has excellent toughness through advanced powder metallurgy technology, and is not easy to chip or break when withstanding the impact of high-speed cutting, significantly extending the service life.
2. Cutting advantages
Profile saw blade milling cutters have the advantages of efficient and precise cutting. Its high hardness characteristics combined with the carefully designed saw tooth geometry can increase the cutting speed by 40% compared with ordinary high-speed steel saw blades when cutting 45 steel, significantly shortening the processing cycle and improving production efficiency; the manufacturing accuracy is controlled within ±0.001mm, and the cutting thickness error Controlled within ±0.1mm, it can meet the processing needs of high-precision parts such as aerospace parts and precision molds, and create high-quality cutting effects.
3.Durability
Profile saw blade milling cutters have an extremely long service life and long-lasting stability. GU20 carbide has excellent wear resistance and toughness, and its service life is 3-5 times that of ordinary saw blades. For example, when cutting stainless steel, ordinary saw blades need to be replaced after about 500 cuts, but this saw blade can complete more than 2,000 cuts. Reduce replacement frequency and cost; and after long-term use, the saw blade has stable cutting performance, minimal hardness and sharpness attenuation, and can continue to cut efficiently and accurately to ensure production operations.
Widely used in: glasses, clocks, machinery, electronics, motors and other industries.
Ordering method: outer diameter x thickness x inner hole x number of teeth, and the material to be processed, so that we can choose the appropriate tool angle.
Product specifications
| Outer diameter(D) | Thickness(T) | Inner diameter(d) | Number of teeth(T) |
| 25 | 0.2-4.0 | 6/8/10 | 10-30 |
| 32 | 0.2-4.0 | 6/8/13 | 10-36 |
| 40 | 0.3-4.0 | 10/12.7/13 | 10-80 |
| 45 | 0.3-4.0 | 13/16 | 20-48 |
| 50 | 0.5-4.0 | 13/16 | 24-52 |
| 60 | 0.5-5.0 | 13/16 | 24-64 |
| 63 | 0.5-5.0 | 22/25.4 | 24-64 |
| 70 | 0.5-6.0 | 22/25.4 | 30-72 |
| 75 | 0.5-6.0 | 22/25.4 | 32-80 |
| 80 | 0.6-6.0 | 22/25.4 | 36-90 |
| 85 | 0.6-6.0 | 22/25.4 | 36-90 |
| 90 | 0.6-7.0 | 22/25.4/27 | 40-90 |
| 100 | 0.8-7.0 | 22/25.4/27 | 45-90 |
| 110 | 0.8-7.0 | 22/25.4/27 | 45-90 |
| 120 | 0.8-7.0 | 22/25.4/27 | 48-100 |
| 130 | 0.8-7.0 | 22/25.4/27/32 | 50-110 |
| 150 | 0.8-7.0 | 22/25.4/27/32 | 56-118 |
| 160 | 1.0-8.0 | 22/25.4/27/32 | 60-120 |
Customization Process
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