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| Brand Name: | XRTOOLS |
| Model Number: | 355mm |
| MOQ: | 200pcs |
| Price: | $0.5-22/pcs |
| Delivery Time: | 25-30days |
| Payment Terms: | L/C, D/P, T/T, Western Union, MoneyGram |
The Problem: When commercial fabricators attempt to cut thick, solid aluminum billets, heavy-duty structural curtain wall profiles, or 2-inch thick fiberglass grating (FRP) with a standard 80T or 96T metal blade, the blade fails catastrophically. The tiny spaces between the teeth (gullets) cannot handle the massive volume of metal ribbons produced. The hot aluminum becomes trapped, melts, and fuses directly to the carbide teeth (a phenomenon called "chip welding"), instantly stalling the saw and destroying the blade.
The Result: Burned-out 3-phase chop saw motors, ruined $100+ saw blades after a single shift, and heavily gouged structural aluminum pieces that must be scrapped.
Swarf Impaction: High-tooth-count blades are strictly for thin materials. Pushing them through 1-inch thick solid aluminum or dense composite grating gives the metal chips nowhere to escape, turning the kerf into a high-friction brake pad.
Point-Stress on Abrasives: Standard ATB wood blades used on thick fiberglass or dense polymers will have their sharp points shattered by the abrasive resins within the first few cuts.
66T Deep-Trench Gullets: By optimizing the pitch to 66 teeth on a 355mm diameter, we create massive, deep gullets between each carbide tip. This acts as a high-capacity evacuation system, violently ejecting large, hot aluminum ribbons and thick composite dust before they can melt and fuse to the plate.
Heavy-Duty TCG Milling: The Triple Chip Grind (TCG) distributes the extreme impact force of cutting solid metal and abrasive fiberglass. The chamfered trapezoidal tooth roughs out the center of the heavy cut, while the flat raker tooth clears the sides, ensuring the carbide survives thousands of brutal cuts without micro-fracturing.
Negative Hook Angle (-5°): The teeth are brazed at a negative angle to prevent the blade from aggressively "grabbing" the heavy material. Instead of trying to pull the solid billet up into the guard, it safely pushes the material down against the chop saw base, creating a controlled, kickback-free milling action.
| Technical Pillar | Imperial Specification | Metric Specification | Industrial Benefit |
| Diameter | 14" | 355mm | Maximum capacity for industrial chop and drop saws. |
| Arbor Size | 1" or 1-3/16" | 25.4mm / 30mm | Fits heavy-duty US and European fabrication saws. |
| Tooth Count | 66T | 66T | Maximum swarf clearance for thick/solid materials. |
| Tooth Grind | TCG (Triple Chip Grind) | TCG | Impact-resistant milling for abrasives and non-ferrous. |
| Hook Angle | Negative (-5°) | Negative (-5°) | Safely deflects grabbing forces on solid metal blocks. |
| Plate Build | Heavy-Gauge Core | Heavy-Gauge Core | Resists the immense thermal expansion of deep cutting. |
Structural Aluminum Fabrication: The definitive blade for chop-cutting solid aluminum billets, heavy architectural curtain walls, thick heat sinks, and thick-wall copper piping.
Industrial Composites & FRP: Effortlessly powers through highly abrasive Fiberglass Reinforced Plastics (FRP) grating, high-density polyethylene (HDPE) blocks, and thick Bakelite.
Commercial Decking & Scaffolding: Fast, reliable crosscuts on thick aluminum-reinforced composite decking, scaffolding planks, and heavy PVC extrusions.
Continuous Flood/Mist Coolant: When cutting solid aluminum blocks or thick-walled extrusions, a continuous misting system or flood coolant is absolutely mandatory. While the 66T gullets evacuate chips, the physical heat generated by deep-trench metal cutting will eventually cause chip welding if not chemically cooled.
Hydraulic Feed Rates: Never "chop" or manually slam a 14-inch blade through solid aluminum. Use a saw with a pneumatic or hydraulic descent control to maintain a slow, perfectly consistent feed rate, allowing the 66 TCG teeth to mill the material safely.
Secure Vise Clamping: Cutting thick, solid materials requires dual-sided pneumatic vise clamping. If a heavy metal billet shifts even a millimeter during a 14-inch cut, it can shatter the blade or cause lethal kickback.
Q: Why should I buy this 14" 66T TCG instead of the 14" 80T TCG for aluminum?
A: You must choose based on material thickness. If you are cutting thin-walled aluminum (like window frames, screen enclosures, or LED channels), use the 80T or 96T. If you are cutting thick, solid aluminum (like structural I-beams, billets, or heavy architectural profiles), you must use this 66T. The 80T will clog and stall on thick metal; the 66T has the gullet space required to clear the heavy metal chips.
Q: Can I use this blade to cut steel pipes, rebar, or iron scaffolding?
A: No. This blade is strictly engineered for non-ferrous metals (aluminum, brass, copper, bronze) and industrial plastics. Using a standard chop saw to cut ferrous metals (iron, steel) with this blade will instantly shatter the tungsten carbide teeth and poses a severe safety risk.
Q: Does this low-tooth-count TCG blade leave a rough finish on plastics?
A: On thin plastics, yes, it may leave a rougher edge than a 100T blade. However, this blade is designed for thick, industrial plastics (like 2-inch thick HDPE blocks or heavy fiberglass grating). On those materials, it leaves a very clean, milled edge without melting the plastic, which a higher-tooth-count blade would fail to do.
Q: Can I use this on a standard wood miter saw?
A: While the arbor may fit, standard wood miter saws spin too fast and lack the necessary clamping and coolant systems for heavy metal fabrication. This blade should only be used on dedicated industrial chop saws, up-cut saws, or double-miter saws designed for non-ferrous materials.
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