PCD Shank Cutters

PCD diamond router bit designed for grooving and contouring operations on CNC machines with manual or mechanical feed. The straight Z1 cutting edge and solid HW body ensure cutting stability, clean finishing and extended tool life.

• PCD cutting edge H 3.5 mm for long service life
• Straight Z1 geometry for controlled cutting
• Solid HW body for rigidity and precision

PCD diamond router bit designed for groove cutting with high surface quality on coated panels. The negative Z1 cutting edge and solid carbide body ensure maximum stability, controlled material removal and clean finishes even on delicate surfaces.

• PCD cutting edge H 3.5 mm for long tool life
• Negative Z1 cutting edge for superior panel finish
• Solid carbide body for high rigidity and stability

PCD diamond router bit designed for groove cutting and contouring on CNC machines with mechanical feed. The two straight Z2 cutting edges and solid carbide body provide balanced cutting action, improved stability and consistently high finish quality.

• PCD cutting edges H 3.5 mm for high durability
• Z2 configuration for higher stability and productivity
• Solid carbide body for rigidity and operational precision

PCD diamond router bit designed for grooving coated panels where the highest surface quality is required. The negative Z2 cutting edges and solid carbide body ensure stability, controlled material removal and clean finishing even on delicate surfaces.

• PCD cutting edges H 3.5 mm for long tool life
• Negative Z2 cutting edges for superior surface finish
• Solid carbide body for rigidity and operational stability

PCD diamond cutter designed for contouring operations on compact and technical materials where high edge quality is required. The alternating positive and negative cutting geometry ensures balanced cutting action, stability and consistent edge finish.

• PCD cutting edges 3.5 mm for long tool life
• Alternating positive/negative edges for superior edge quality
• Solid HW body for rigidity and precision

PCD diamond router bit designed for grooving, contouring and surfacing operations on CNC machines with manual or mechanical feed. The two straight Z2 cutting edges and the steel body ensure cutting stability, controlled material removal and consistent surface finish.

• PCD cutting edges H 4 mm for long tool life
• Z2 configuration for balanced and productive cutting
• Steel body for robustness and reliability

PCD diamond router bit engineered for grooving operations on coated panels and wood-based materials when an excellent surface finish is required. The negative Z2 cutting geometry together with the steel body provides high stability, controlled chip removal and a clean, tear-free result.

• PCD cutting edges H 4 mm for extended tool life
• Negative Z2 geometry for chip-free surfaces and clean edges
• Steel body for robustness and machining accuracy

PCD diamond router bit designed for surfacing, drilling and rebate operations on coated panels and technical materials. The negative axial cutting concept and center cutting geometry improve chip control and deliver a cleaner side finish, even during continuous CNC runs.

• 4.5 mm PCD cutting edge for long tool life and high output
• Negative cutting edge for clean and stable side surfaces
• Center cutting geometry to surface and drill with accurate results

Bearing guided trimming bit in PCD diamond developed for precise, controlled manual trimming on panels and compact materials. The Z2 negative cutting geometry and the reduced axial angle provide stable cutting and a clean finish, even on delicate or coated surfaces.

• PCD cutting edge H2.5mm for extended service life
• Z2 negative geometry for stable, chip free edges
• Integrated bearing for accurate and repeatable trimming

PCD diamond router bit designed for nesting and contouring on compact and abrasive materials. Alternating positive/negative cutting edges with a chipbreaker provide a combined roughing-and-finishing action, delivering excellent edge quality.

• PCD cutting edges H 3.5 mm, Z2 with alternating positive/negative geometry
• Chipbreaker design to rough and finish in a single pass
• Heavy metal HDM body for maximum stability

PCD diamond router bit designed for high-performance nesting and contouring on CNC machines. The Z4 layout with alternating positive/negative cutting edges and a chipbreaker delivers efficient stock removal, cutting stability and consistent finishing even on technical and abrasive materials.

• Z4 PCD cutting edges with chipbreaker for high productivity
• Heavy metal HDM body for maximum stability
• Ideal for CNC nesting and precision contouring

PCD helical router bit designed for contouring and grooving on both CNC and manual machines. The Z1+1 layout with two helical sections offers a solid balance between material removal, cutting stability and surface finish, especially on coated panels.

• Z1+1 configuration with positive and negative helix
• PCD diamond insert H 2.5 mm, regrindable
• Ideal for laminated panels and coated MDF

PCD diamond Z1+1 router bit designed for cutting channels and profiling on panels and wood-based materials with high accuracy. The cost-effective H2.5 mm PCD tip and the heavy DENSIMET body deliver stability on small diameters and consistent finish. Made in Italy.

• PCD H2.5 mm tip resharpenable up to 3 times
• Z1+1 geometry for clean channels and profiling
• Heavy DENSIMET body for rigidity and low vibration

PCD Z1+1 helical router bit designed for CNC grooving and contouring on panels and wood-based materials. The cost-effective PCD insert H 2.5 mm, regrindable up to three times, combined with the steel body, offers a balanced solution in terms of performance, durability and cost.

• PCD insert H 2.5 mm, regrindable
• Z1+1 geometry with positive and negative helix
• Steel body for stability and reliability

PCD Z1+1 helical router bit designed for CNC contouring applications with shank. The PCD diamond insert H 4.5 mm, regrindable up to eight times, combined with the steel body ensures long tool life, cutting stability and consistent quality even on coated panels.

• PCD insert H 4.5 mm, regrindable up to 8 times
• Z1+1 geometry with positive and negative helix
• Steel body for rigidity and reliability

Helical PCD diamond cutter Z1+1 with 2.5 mm insert regrindable up to three times, designed for shank contouring on CNC machining centres. The three-helix geometry, with a first positive cutting edge followed by negative edges, ensures chip control, cutting stability and good surface quality.

• PCD insert H2.5 mm regrindable up to 3 times
• Z1+1 geometry for controlled contouring
• HW body for rigidity and accuracy

PCD Z2+2 helical router bit designed for shank contouring on CNC machines with mechanical feed. The 4 helical divisions and the pulling geometry with a first positive insert ensure efficient chip evacuation, cutting stability and consistent quality on panels and wood-based materials.

• Z2+2 with 4 helices for productive, stable machining
• PCD insert H 2.5 mm for good tool life and a clean finish
• Special steel body with HW drilling tip

PCD Z2+2 CNC/router bit for shank contouring with mechanical feed, designed for CNC routers and pantographs. The 4 helical divisions and pulling geometry deliver efficient chip evacuation, cutting stability and a clean finish on coated panels and plywood.

• PCD H 4.5 mm with up to 8 regrinds for extended service life
• Z2+2 and 4 helices for productive, stable CNC contouring
• Special steel body with HW drilling tip

Helical PCD CNC router bit developed for contouring and finishing on coated panels and technical materials. The cutting layout combines Z2+2 on the top and bottom with Z1+1 in the central section, ensuring stable cutting, controlled material removal and a clean finish even on abrasive substrates.

• PCD insert H 2.5 mm, regrindable up to 3 times
• Combined Z1+1 / Z2+2 geometry for a stable cut
• Special steel body for rigidity and precision

PCD Z1+1 router bit with guide bearing designed for trimming and contouring on CNC machines with manual or mechanical feed. The cost-effective PCD insert H 2.5 mm, regrindable up to three times, ensures cutting stability and a clean finish on coated panels.

• Guide bearing for precise trimming operations
• PCD insert H 2.5 mm, regrindable up to 3 times
• 3 helical divisions with positive/negative geometry

PCD CNC router bit designed for contouring on coated panels and technical materials. The Z2+2 geometry with 3 helical divisions delivers cutting stability, controlled material removal and a clean finish, even on abrasive substrates.

• PCD insert H 2.5 mm, regrindable up to 3 times
• Z2+2 geometry for stable, precise contouring
• Special steel body for rigidity and reliability

Helical PCD router bit designed for shank contouring on coated panels and technical materials. The Z2+2 geometry with 3 helical divisions provides cutting stability, controlled material removal and a clean finish, even on abrasive substrates.

• PCD insert H 4.5 mm, regrindable up to 8 times
• Z2+2 geometry for stable, precise contouring
• Special steel body for rigidity and reliability

Helical PCD router bit designed for high-performance contouring on coated panels and technical materials. The Z3+3 geometry with 3 helical divisions delivers high material removal rates, cutting stability and a clean finish even on abrasive substrates.

• PCD insert H 4.5 mm, regrindable up to 8 times
• Z3+3 geometry for high-performance CNC contouring
• Special steel body for maximum rigidity

PCD pantograph router bit designed for contouring on pantographs and CNC machines. The Z3+3 configuration and predominantly positive axial geometry promote excellent chip evacuation and a clean finish, even on coated panels.

• PCD inserts H 4.5 mm, regrindable up to 8 times
• Z3+3 geometry for precise, stable contouring
• Special steel body for rigidity and long service life

Helical PCD router bit designed for contouring on pantographs and CNC machines. The 30° axial angle ensures superior edge finishing and excellent surface quality on coated panels.

• PCD inserts H 4.5 mm, regrindable up to 8 times
• Z2+2 geometry for precise, stable contours
• 30° axial angle for high-quality finishes