Up-Cut Ball Nose for Superior Chip Ejection in CNC and CNC Carving Machines
Amana Tool®'s Modern Materials Finishing Geometry (MMFG) incorporates high shear and multi-flute designs for the ultimate combination of strength, finish and tool longevity in aerospace materials. Modern-day materials present challenges to the fabricator, using these special multi-flute edge tools addresses these challenges with a winning geometry combination.
- A perfect bit for 3D carving
- 2D and 3D contouring, profiling, modeling and pattern making for cabinetry, sign making, furniture making and jewelry mold making
- Dimensional signage
- 3D millwork
- Precision 2D and 3D large scale carving
- Great for deep profiling
- Perfect for model-makers on large 3D milling profiles in abrasive EPS foam and other materials
The industrial router bits can be used in sign making & 3D Carving industries in MDF, Plastics, Bronze, Copper, Aluminum, Foam, Wood and other materials. The simultaneous 3-axis motion with the appropriate software allows full 3D capability that provides sign and 3D model makers the ability to work with any material.
The solid carbide tips cut smooth 2D and 3D contours with reduced stepping. The tapered design achieves high detail in deep cuts, improving the complexity and the detail of your finished work. The longer bits provide deeper cuts and larger slices with fewer passes, resulting in improved productivity and less assembly. These router bits are designed to last, saving you the costs of replacing lesser quality tools. These CNC cutting tools allow you to achieve precision, depth, unparalleled accuracy, detail and clarity in foam and other modern-day materials.
Excellent for cutting:
- Acrylonitrile-Butadiene-Styrene (ABS)
- Acrylic Stone
- Ethylene-vinyl Acetate Foam (EVA)
- Expanded Polystyrene Foam (EPS)
- Expanded Polypropylene (EPP)**
- Extruded Polystyrene Foam (XPS)
- Fiberglass PCB Board
- Foam Board
- 20lbs High Density Urethane
- Polyethylene (PE) Foam*
- Phenolic Composites
- Polycarbonate (Lexan™)
- Poly (methyl methacrylate) (PMMA)
- Polyethylene (PE) Foam***
- Polyurethane Foam
- PVC Foam Board
- Sign Board
- Sign Foam
- Tooling Board
- XPE (Cross Linked Polyethylene) Foam
WARNING! Never attempt to cut ferrous metals with these bits. Inspect cut quality and adjust feed / speed accordingly.
Note: Tools are manufactured with high balance, that allows them to run up to 60,000 RPM. Adjust your chip load and feed rate accordingly.For optimal results and extended tool life use mist lubricant system or air cooling.
*Coroplast® is soft plastic cardboard made with super soft, super flexible PVC.
**Expanded polypropylene (EPP) is a foam form of polypropylene.
***Ethafoam, Polyethylene and Polylam are durable, flexible, closed-cell foams with excellent memory.
Milling Plastics: In a milling application, all plastics tend to behave differently so attention must be paid first and foremost to heat input, as that greatly impacts surface finish and chip control. Some of Amana Tool carving tools, as you can appreciate has a very small diameter and so any material chip-loads need to reflect that small size. It can however withstand RPM’s up to 60,000 RPMs. A directed air-blast to keep chips away along with cooling the tool and work piece are always welcome. Suggested starting spindle speed might be 18,000 RPM, there needs to be some experimenting on the part of the programmer to best find an acceptable finish.
Cutting materials such as HDPE and Plastics its highly recommended to direct an air blast at the router bit to help keep the material cool while clearing away fragments from the cutting area. If possible run a high chip load in the order of .005" and up, per flute. Running your CNC machine at the rate of 10,000 RPM x 2 flutes x .005" per flute equals 100 inches per minute feed rate. When cutting plastics it is expected to experience some burring on top edge.
Vectric Compatible Tool File
Tools file to be used with all versions of Vectric software from version 8.0 and up. Works with Aspire, VCarve, Cut2D, Cut3D and PhotoVCarve.
1. Download to a safe location such as your desktop.
2. In the software, open the Tool Database and use the import option to load the file from the safe location. User will need to enter for each tool the feed rate, plunge rate and spindle speeds depending on the material used and the machines capabilities. The feed rate can be found for each individual tool under the speed and feed rate tab on their own product pages.