END MILL PRICELIST EFFECTIVE 9/1/24

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TECHNICAL DATA
Milling Cutters & End Mills

Starting Peripheral
Cutting
Feeds
Speeds, Feeds & Power Calcs
Troubles & Corrective Measures
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Speeds, Feeds & Power Calcs

Table 4 - Speed, Feed and Power Calculations

To find Having Procedure Formula
Peripheral cutting
speed - V
Cutter diameter , d
Rotational speed, N
Multiply cutter diameter by rotational speed
and 0.262
V = 0.262 dN
Rotational
speed - N
Cutter diameter, d
Peripheral cutting speed, V
Divide the product of 3.82 and cutting speed
by cutter diameter
N = (3.82 V)/d
Feed per tooth - f Machine feed rate, F
Rotational speed, N
Number of teeth, I
Divide machine feed rate by product of
rotational speed and number of teeth
f = F/NT
Machine feed
rate - F
Feed per tooth, f
Rotational speed, N
Number of teeth, T
Multiply feed per tooth by rotational speed and
number of teeth
F = fNT
Feed per
revolution - f
Machine feed rate, F
Rotational speed, N
Divide machine feed rate by rotational speed fr = F/N
Cutting power
input - P
Width of cut, W
Depth of cut, h
Machine feed rate, F
Workpiece material power constant, C
Divide the product of width of cut, depth of
cut, and machine feed rate by the power
constant
P = (WhF)/C

Definition of Symbols and Measurement

Quantity Symbol Measurement Unit
Cutting speed V Speed feet per minute, sfm
Rotational speed N Revolutions per minute, rpm
Cutter diameter d Inches
Feed per tooth f Inches per tooth, ipt
Machine feed rate F Inches per minute, ipm
Feed per revolution fr Inches per revolution, ipr
Cutting power input P Horsepower, hp
Power constant C Cubic inches per horsepower minute
Width of cut W Inches
Depth of cut h Inches
Number of teeth T -

Power Constants for
Use with Table 4

Power constant values for various materials are the number of cubic inches of metal per minute capable of being removed per horsepower input with 60% power efficiency at the spindle nose and a 25% allowance for cutter dulling.

Work Material C (Constant)
Magnesium 4.0
Aluminum 4.0
Copper 2.0
Brass 2.5
Bronze 2.0
Malleable Iron 1.0
CastIron --
Ferrite 1.5
Pearlitic 1.0
Chilled .6
Steel --
Up to 150 Brinell .7
300 Brinell .6
400 Brinell .5
500 Brinell .4
Stainless Steel --
Free Machining 1.0
Other .6
Titanium --
Under 100,000 psi .8
100,000 - 135,000 psi .6
135,000 psi & over .4
High Tensile Alloys --
180,000 - 220,000 psi .5
220,000 - 260,000 psi .4
260,000 - 300,000 psi .3
High Temperature Alloys --
Ferritic Low Alloys .6
Austenitic Alloys .5
Nickel Base Alloys .4
Cobalt Base Alloys .4