Description
Designed for professional stone fabrication, the Ogee Edge Profile (Marble) - 2cm+2cm Laminated template captures the exact geometry needed for flawless ogee edge profiles. The standard dimensions specifications align with industry-standard tooling and CNC equipment. This profile is particularly suited for dolomite countertops where precision matters. From initial roughing passes to final polish, having an accurate DXF template eliminates guesswork and ensures every piece matches. The ogee edge has proven popular in hospitality applications, delivering both durability and visual appeal that clients consistently request.
Related Templates
Bird's Beak Edge Profile (Granite) - 2cm+2cm Laminated
Bird's Beak Edge Profile (Marble) - 2cm+2cm Laminated
Bird's Beak Edge Profile (Porcelain) - 2cm+2cm Laminated
Bird's Beak Edge Profile (Quartz (Engineered)) - 2cm+2cm Laminated
Designed for professional stone fabrication, the Ogee Edge Profile (Marble) - 2cm+2cm Laminated template captures the exact geometry needed for flawless ogee edge profiles. The standard dimensions specifications align with industry-standard tooling and CNC equipment. This profile is particularly suited for dolomite countertops where precision matters. From initial roughing passes to final polish, having an accurate DXF template eliminates guesswork and ensures every piece matches. The ogee edge has proven popular in hospitality applications, delivering both durability and visual appeal that clients consistently request.
Installation Overview
Installing the Ogee Edge Profile (Marble) - 2cm+2cm Laminated edge profile requires careful preparation of the substrate edge before applying the profile. Begin by ensuring the countertop slab is cut to final dimensions with clean, squared edges. For dolomite substrates, use a diamond blade at reduced feed rates to prevent chipping. The edge profile should be roughed using a CNC router with the DXF template loaded as the toolpath guide. Start with a roughing pass at 60-70% depth using a coarse diamond bit, then follow with a finishing pass at full depth using a fine-grit profile wheel. Allow adequate water flow during cutting to prevent thermal stress fractures. After CNC shaping, hand-finish using progressive diamond polishing pads from 50 grit through 3000 grit. For the ogee profile specifically, pay attention to the transition zones where curves meet flat surfaces. Apply a stone sealer appropriate for dolomite once the edge is fully polished. Final inspection should verify the profile matches the DXF geometry within 1/32" tolerance.
CNC Cutting Notes
Optimal CNC settings for the Ogee Edge Profile (Marble) - 2cm+2cm Laminated template depend on the substrate material. For natural granite, use 4000-5500 RPM with 30-50 IPM feed. For quartz composites, increase to 5500-7000 RPM at 45-65 IPM. The ogee profile requires careful attention to entry and exit points on the toolpath to prevent edge chipping. Program multiple depth passes rather than a single full-depth cut. Coolant temperature should remain below 70°F for optimal diamond tool performance. Dress profiling wheels after every 20-30 linear feet of cutting to maintain profile accuracy.
Material Compatibility
This ogee profile is compatible with a wide range of countertop materials. Natural granite remains the most popular substrate, offering durability and an attractive polished finish. Engineered quartz performs excellently, with consistent material properties that make CNC cutting predictable and efficient. Marble requires more careful handling — reduce feed rates by 15-20% to prevent veining from causing unpredictable fractures. Quartzite is an excellent choice for this profile, as the material's hardness preserves fine geometric details through years of use. Dolomite and travertine can be profiled with adjusted parameters. Avoid ultra-thin porcelain slabs for complex profiles without proper backing support.
Where to Buy
Professional fabricators can source dolomite slabs from local stone distributors and wholesale suppliers. Visit SlabWise for template downloads and fabrication resources.