Milling Inserts

Milling Inserts

Indexable milling inserts let you swap a worn cutting edge in seconds without taking the tool body out of the spindle. For production workshops, the economics are clear: insert replacement is faster than regrinding, and a single tool body holds dozens of edges over its life. AIMS Industrial stocks the common milling insert geometries and grades for face milling, shoulder milling, slot milling, and finish work.

The geometries we stock

• APKT / APMT — positive-rake, sharp-edged inserts for shoulder mills and finish work in steel and aluminium
• SEKT / SEKR — rectangular inserts for square-shoulder and slot mills
• RPMT / RPHT — round inserts for high-feed face milling
• SDKT / SDMT — square inserts for shell mills and face mills
• WCMX / WCMT — for U-drills and trepanning operations
• OFKT / OFMT — octagonal inserts for high-rate face milling

Grades and coatings

Insert grade selection is driven by the workpiece material and the cutting speed:

• P-grade — for steel, the most common grade in general workshop use
• M-grade — for stainless steel, with toughness to handle work-hardening
• K-grade — for cast iron, where chip is short and abrasive
• N-grade — for aluminium and non-ferrous, often uncoated or polished for chip flow
• S-grade — for high-temperature alloys (Inconel, titanium)
• H-grade — for hardened steels in finish-milling applications

PVD coatings (TiN, TiCN, TiAlN, AlTiN) extend life on the more demanding grades. CVD coatings suit high-volume turning more than milling, but appear on heavy-duty milling inserts where stock removal is the priority.

Matching inserts to tool bodies

Inserts are tool-specific. The geometry, size, corner radius, and chip-breaker design all need to match the tool body's pocket. Bring us the tool body part number, the existing insert designation, or a photo of the tool — we'll get the matching insert first time.

Chip-breaker geometry — the often-overlooked spec

Chip-breaker design on a milling insert controls how the chip forms and clears the cut. Light cuts in soft material want a sharp, free-cutting geometry. Heavy roughing cuts in tough steel want a strong, reinforced edge that takes the load. Get the chip-breaker wrong and the insert either chatters and breaks (too aggressive) or builds up edge and burnishes the cut (too dull). Insert manufacturers code the geometry into the insert designation — the suffix letters tell you whether it's finishing (F), medium (M), or roughing (R).

Setting up a tool body for production

An indexable tool body costs more upfront than a solid carbide cutter but pays back through low cost-per-edge over its life. A typical face mill takes 4-8 inserts; rotating to a fresh edge takes seconds when one wears, versus replacing the entire cutter on a solid tool. For workshops doing repetitive milling work, indexable tooling is almost always the right call.

Need help with insert selection?

contact our team for grade recommendations, bulk packs, or sourcing on less common geometries.