BIG KAISER Tooling Today

Is Boring Faster than Reaming?

TIPS & TRICKS

When making holes it can be difficult to decide between reaming or boring. Which way is actually faster?

A balanced boring head like the BIG KAISER EWB-UP Series 309 can produce finished bores faster than conventional reamers. These heads feature diameter adjustments of .00005" and an integrated counterweight that allows for high cutting speeds to provide higher feed rates with a single insert rather than other multiple tip tools. In addition to shorter process times, the auto balance heads also provide superior bore roundness.

BORE ROUNDNESS

REF: Bore Ø50mm (1.968 " ) MATERIAL: Aluminum INSERT: PCD, R= .4 (.016 " )

5,000 RPM

10,000 RPM

BALANCED BORING TOOL Measured Roundness, mm

90º

90º

180º

180º

1.10 μ

1.25 μ

270º

270º

5,000 RPM

10,000 RPM

NON-BALANCED BORING TOOL Measured Roundness, mm

90º

90º

180º

180º

1.10 μ

6.30 μ

270º

270º

NEW PRODUCT

TWO NEW CHIP BREAKER INSERTS FOR FINISH BORING BIG KAISER Precision Tooling has released two new insert chip-breaker types designed to improve surface finish in long- chipping materials. Long chips that are difficult to evacuate can lead to poor surface finishes when chips are dragged around by the tool. Insert life can be severely reduced if these chips are re-cut by the insert, and in small-diameter applications stringy chips can wrap around the tool to the point where a crash occurs. The exclusive FLM 3D chip-breaker design is used on PCD-tipped inserts ideal for finishing of aluminum components, where traditional flat-top inserts may produce a large continuous nest of chips that is difficult to remove from the bore and/or tool, even with high-pressure coolant. Three different radius options are available: .008", .016" and .031" for the insert TCGT2 (1.5).

For finishing in mild- or construction steels, cermet inserts with chip-breaker form ELM should be used. Available in .008" radius and combined with a light depth of cut, this chip-breaker creates a high-shear angle to shorten the cutting chips for better evacuation and gives superior surface finishes in these raditionally difficult materials.

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