Multi-rip Saw Blades
Multi-rip blades with or without rakers for log, square timber and production wood cutting where chip removal and heat control matter.
Custom TCT circular saw blades for woodworking, plywood, MDF, bamboo, aluminum profiles, color steel tile and industrial panel cutting machines.
TCT saw blades can be designed for different materials, machine types and surface finish requirements. Based on the cutting material, we help select tooth profile, carbide grade, body thickness, kerf, arbor and pin hole design.
Based on the product catalog, this page focuses on TCT carbide tipped blades for wood, panel, bamboo, aluminum and color steel applications. HSS blades and cermet cold saw blades are covered on their own pages.
Multi-rip blades with or without rakers for log, square timber and production wood cutting where chip removal and heat control matter.
Thin kerf blades for material saving, smoother surfaces and lower cutting load on suitable machines.
Solid wood cross cutting and longitudinal cutting blades for sliding table saws and production wood processing.
Electronic cutting saw, sliding table saw, plywood, MDF, chipboard and laminated board blades for clean panel edges.
Single and double scoring blades for pre-slotting double veneered chipboard, MDF and laminated panels.
Grooving blades for wood back plate, aluminum-plastic board and other wide groove cutting applications.
Bamboo, waterproof board and Teflon coated blade options for adhesive, resin or coated surface cutting problems.
TCT blades for aluminum profiles, radiators, door and window profiles, copper alloy and other non-ferrous materials.
The table below turns the catalog product range into a clearer selection map for industrial buyers. Final dimensions still need to match the machine and sample blade.
| Product Type | Typical Material | Machine / Use | Selection Focus |
|---|---|---|---|
| Multi-rip with rakers | Log, square timber, softwood and hardwood | Conventional multi-blade saw machine | Chip evacuation, heat dissipation, resin control and blade life |
| Ultra-thin multi-rip / ultra-thin blade | Softwood, hardwood and general wood stock | Multi-blade saw, square timber saw and suitable table saws | Material saving, machine stability and lower kerf load |
| Solid wood cross cut / rip cut | Solid wood, plywood and composite wood | Sliding table saw and double-end milling machines | Cut direction, tooth count, chip space and surface finish |
| Electronic cutting / sliding table blade | Melamine board, MDF, chipboard and composite board | Electronic cutting saw, reciprocating saw and sliding table saw | Clean edge, low chipping, carbide grade and matching scoring blade |
| Single / double scoring blade | Double veneered chipboard and MDF | Pre-slotting before main panel cutting | Kerf match, scoring depth, arbor fit and chipping control |
| Grooving blade | Wood back plate and aluminum-plastic plate | Woodworking machinery, electric saw and vertical milling equipment | Groove width, bottom flatness, body rigidity and tooth profile |
| Plywood / bamboo / waterproof board blade | Plywood, bamboo board, waterproof board and adhesive panels | Trimming machines, special bamboo saws and sliding table saws | Non-stick cutting, smooth edge, no burr and resin build-up control |
| Aluminum / diamond / coated blade | Aluminum profile, copper alloy, plastic steel and abrasive composite panels | Profile cutting machines, angle saws and production saws | Burr control, carbide support, coating choice and clamping stability |
These are reference ranges organized from the TCT catalog. They are not a fixed stock list; we confirm final blade size by drawing, machine model or sample blade.
| Blade Series | Reference Diameter | Kerf / Plate | Common Arbor | Typical Teeth |
|---|---|---|---|---|
| Multi-rip saw blade with rakers | 180-1000 mm | 1.8-8.5 mm kerf | 30 / 35 / 40 / 50 / 60 / 70 / 80 mm | 18+2T, 24+2T, 36+4T, 40+8T |
| Ultra-thin saw blade | 180-300 mm | 1.3-2.0 mm kerf | 25.4 mm | 60T, 80T, 100T |
| Solid wood cross cutting blade | 305-1000 mm | 3.2-8.0 mm kerf | 25.4 / 40 / 50 mm | 80T, 100T, 120T |
| Solid wood rip cutting blade | 305-1000 mm | 3.2-8.0 mm kerf | 25.4 / 40 / 50 mm | 40T, 48T, 60T, 80T |
| Electronic cutting and sliding table blade | 300-400 mm | 3.2-4.4 mm kerf | 30 / 60 / 80 mm | 72T, 80T, 84T, 96T |
| Single / double scoring blade | 100-200 mm | 2.8-5.3 mm adjustable kerf | 20 / 22 / 30 mm | 12+12T, 24T, 40T |
| Aluminum saw blade | 250-500 mm | 2.8-4.4 mm kerf | 25.4 mm | 120T |
| Teflon coated blade | 165-305 mm | 1.5-2.4 mm kerf | 16 / 20 / 25.4 / 30 mm | 24T, 40T, 48T, 54T, 60T, 80T |
| Color steel tile blade | 230-405 mm | 2.8-3.4 mm kerf | 32 mm | 80T, 100T, 120T |
TCT blade performance depends on the carbide tip, steel body, tooth geometry and the real machine condition working together.
| Cutting Material | Selection Focus | Key Details To Confirm |
|---|---|---|
| Solid wood and softwood | Hook angle, tooth count and chip space for smooth feeding | Rip or cross cut, moisture, feed speed and required edge finish |
| Plywood, MDF and laminated panels | Clean edge, anti-chipping design and matching scoring blade if needed | Panel thickness, coating layer, cutting direction and chipping position |
| Aluminum profile | Fine surface, low burr, stable clamping and suitable tooth geometry | Profile drawing, wall thickness, alloy grade, coolant and machine clamp |
| Color steel tile | Blade rigidity, carbide grade, tooth strength and reduced deformation | Sheet thickness, coating surface, cutting speed and whether the material vibrates |
| Plastic, composite or special material | Heat control, chip discharge and sample testing before batch production | Material sample, melting risk, surface requirement and production quantity |
The same diameter and tooth count can cut very differently if the tooth form, carbide grade or plate tension is wrong.
Often used for wood, panels and clean cross cutting where edge quality is important.
Commonly discussed for aluminum profiles, laminated boards and materials that need stronger edge support.
Can be suitable for ripping, grooving or applications where chip space and stable feed are important.
Hardness and toughness must match the material. A harder tip is not always better if the application has impact or vibration.
Body thickness, kerf and tension affect stability, heat and power load. Thin kerf needs more attention to machine condition.
Arbor, keyway and locating holes should match the machine exactly. A sample blade or drawing prevents installation mistakes.
When cutting results are unstable, the reason is often a combination of blade choice, machine condition and workpiece control.
For a fast and accurate TCT blade quotation, send the current blade data and the real cutting condition. Photos of the blade mark, machine nameplate and cut material are very helpful.
What buyers usually ask before ordering.
Wood ripping, panel cutting, scoring, grooving and aluminum profile cutting use different tooth geometry, carbide grade, hook angle and plate design. Send the material and machine data before choosing.
Yes. Scoring blades, grooving blades, multi-rip blades, ultra-thin blades and aluminum cutting blades can be discussed according to the catalog reference, drawing or sample blade.
Please send outer diameter, kerf, plate thickness, arbor, pin holes, tooth count, tooth shape, cutting material, machine type, feed method, quantity and the current cutting problem.
Check tooth geometry, tooth count, carbide sharpness, feed speed, clamping, panel support, cooling, resin build-up and whether a scoring blade is needed for laminated boards.
Yes. Non-standard diameter, arbor, pin holes, tooth count, carbide grade, coating and packaging can be discussed for OEM buyers and repeat production orders.
Catalog sizes are useful references, but final availability and recommendation depend on the blade specification, material, machine and order quantity. Confirm before placing an order.
For TCT blades, the material and edge requirement decide tooth geometry, carbide grade, hook angle and plate design.
Best first message: material + machine type + blade size + edge problem + quantity.
Use these pages to connect TCT blade choice with material, machine stability and required finish.
Use the guide to compare TCT, HSS, cermet and GF blade choices.
Share material, profile size, current blade data, machine and finish requirement.
TCT blades should not be selected only by diameter and tooth count. Carbide grade, tooth geometry, plate tension, kerf and application material decide the final cutting result.
Focus on clean finish, low chipping and tooth geometry matched to board type.
Confirm wall thickness, profile shape, clamping and chip evacuation.
Send sample photos or a drawing when special tooth shape or carbide grade is required.
Send the machine model, current blade size, material and cutting problem. Drawings, nameplate photos or sample photos help us confirm the specification faster.
No. Carbide grade, tooth geometry, kerf, plate tension, material and feed condition also decide the final cutting result.
Yes. Aluminum profile blades should be selected by profile shape, wall thickness, clamping, lubrication and required surface finish.
Usually not. Wood, aluminum and non-ferrous metal applications often need different carbide grade and tooth geometry.