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1. Composite structure: Using unique dissimilar materials for welding, it can resist chemical erosion and maintain the integrity of the tooth tip. Si Tai Li alloy itself has extremely high hardness (usually between HRC 50-65+), and can maintain its hardness and strength at high temperatures (up to 1000 ° C or above). The toughness of the backing material and the wear and heat resistance of the tooth tip greatly extend the service life of the product.
2. Precision tooth profile technology: The tooth tips (especially the Sitaili part) and tooth grooves are precision ground by CNC to ensure high consistency of tooth profile and sharp cutting edge. Precise tooth division (left and right staggered teeth) or waveform arrangement increases the width of the saw gap, reducing friction and saw clamping risks between the saw blade and the workpiece.
3. Multi scenario adaptive design: mainly used for sawing wet wood such as spruce, pine, poplar, and sand containing wood. Its high temperature resistance, adhesion resistance, corrosion resistance, work hardening resistance, and compatibility with cooling make it indispensable in high-end manufacturing fields such as aerospace, energy, and medical equipment.
| Parameter | Common scope |
| Length (mm) | 5400、5500、5700、6250、6400、6100、6300、7100、7600、8000、10500 |
| Width (mm) | 100、125 |
| Thickness (mm) | 1.25 |
| Number of teeth (TPI) | 22, 26, 28, 30 |
For more specifications, please contact the sales specialist
advantage
Durability: Extraordinary high temperature and wear resistance (red hardness), resistance to adhesion and chemical corrosion, and resistance to coolant corrosion. When cutting high-temperature alloys/titanium alloys, the lifespan can reach 10-50 times that of ordinary bimetallic saw blades;
Good toughness: The spring steel backing material and Sitaili tooth tip achieve a balance of rigidity and flexibility through precision welding (such as electron beam welding).
Good cutting: Variable tooth pitch design (such as 4/6 TPI)+divided teeth/waveform arrangement+optimized tooth profile geometry, precise tooth profile combination optimizes cutting efficiency. The tooth tip remains sharp for a long time, resulting in better flatness and perpendicularity of the cutting surface.
benefit point
Cost saving: Reduce the cost of single cutting (especially for batch processing), minimize burrs, and lower the cost of subsequent precision machining.
Improve efficiency: reduce the frequency of changing saw blades and extend the continuous processing time.
Solving the "uncut" problem: becoming the only efficient solution for "cutting forbidden zone" materials such as nickel based alloys (Inconel), titanium alloys, and precipitation hardened stainless steel.
1. Wood processing category: Hardwood (including teak, rosewood, sandalwood, South American hardwood (such as heavy ant wood, purple heart wood, etc.); Special state wood (including wet/frozen wood (for logs with high moisture content or frozen state) and wood with high resin content (such as pine, fir, etc.).
2. Metal materials: stainless steel and alloy steel (including SUS303/316/420 stainless steel, SCM415/440 alloy steel, etc.); Special alloys and titanium alloys (including titanium alloys such as TC4 and nickel based high-temperature alloys such as Inconel series).
3. Composite materials and engineering materials: high-performance non-metallic materials (including carbon fiber composite materials, heavy bamboo (bamboo fiber composite materials), ceramics, quartz glass); Wear resistant engineering materials (high manganese steel, wear-resistant steel plate (Hardox series).
4. Special industrial materials: Biomedical alloys (cobalt chromium molybdenum implant grade alloys (ASTM F75); Freezing/cryogenic materials.