Buy Corner Radius End Mills Online in Australia
Corner Radius End Mill Selection — Quick Reference
Corner radius end mills (bull nose) have a small radius between peripheral and bottom cutting edges — vs the sharp corner of a square end mill. The radius dramatically improves tool life by spreading stress at the most vulnerable point of the cutter. Critical for hardened steel + stainless + titanium where sharp corners chip.
| Material Substrate | Recommended Radius | Best For |
|---|---|---|
| Solid Carbide (Uncoated) | 0.5 – 6.0 mm radius | General workshop — better than HSS in most materials |
| Solid Carbide TiN-coated | 0.5 – 6.0 mm radius | Steel + alloy — gold coating extends life |
| Solid Carbide TiAlN/AlTiN | 0.5 – 6.0 mm radius | Hardened steel + stainless — heat-resistant coating |
| Carbide for Aluminium (Polished + Sharp) | 0.5 – 4.0 mm radius | Aluminium ONLY — different geometry, NOT AlTiN-coated |
| HSS Cobalt M42 | 0.5 – 3.0 mm radius | Budget choice — slower cutting + shorter life than carbide |
Radius selection: Smaller radius (0.5 – 1.0 mm) = finer fillet, lighter cut | Larger radius (2.0 – 6.0 mm) = stronger edge, heavier cut. The radius cannot exceed the cutter's flute width minus a margin. Common diameters: 3, 6, 8, 10, 12, 16, 20, 25 mm. Critical: NEVER use AlTiN-coated carbide on aluminium (chemical reaction welds chip onto edge). Brands: Sutton, OSG, Yamawa, YG-1. Companion: end mills, ball nose, end mill guide, carbide vs HSS.
Corner Radius End Mills
Corner radius end mills (bull nose end mills) are end mills with a small radius blended between the peripheral cutting edge and the flat bottom — rather than the sharp corner of a square end mill. This radius dramatically improves tool life by reducing chipping and edge breakdown at the most vulnerable point of the cutter. AIMS Industrial stocks corner radius end mills in HSS and solid carbide for milling machine and CNC machining centre use.
Why Corner Radius Matters
The sharp corner of a standard square end mill is the weakest point of the cutter — subject to the highest contact stress on every tool engagement. In hardened steels, stainless and titanium alloys, sharp corners chip or break progressively under the thermal and mechanical stress of milling, dramatically reducing tool life and surface quality. A corner radius distributes this stress over a larger area, maintains a stronger cutting edge geometry, and reduces the tendency for built-up edge and chipping. In hardened steel (45 HRC and above), corner radius end mills are often the only practical option for reliable peripheral milling.
Radius Options
Corner radius end mills are specified by nominal diameter and corner radius — common combinations include 10mm x R0.5, 12mm x R1.0, 16mm x R2.0 and 20mm x R2.0. The corner radius should match the required floor-to-wall radius in the milled pocket or profile; if not specified, a small radius (0.5mm to 1.0mm) provides most of the tool life benefit with minimal effect on slot geometry.
Applications
Peripheral slot milling in hardened and difficult-to-machine steels, contour milling with radiused corners, semi-finish and finish milling of complex 3D profiles in dies, moulds and aerospace components. For guidance on the right corner radius end mill for your material and application, contact our team. AIMS Industrial has been supporting Australian workshops since 1988.