T Slot Cutter Speeds And Feeds Aluminum

59 Milling Speeds & Feeds Tel: 00 Website: www.itc-ltd.co.uk MATERIAL GROUP TIN TICN TIALN HARDNESS (Bhn) SURFACE SPEED METRES/ MIN FEED (mm/TOOTH) END MILL DIAMETER 3mm 4mm 5mm 6mm 8mm 10mm 12mm 16mm 20mm 25mm. Feb 09, 2007  Milling spindle speed for aluminum??? I'm planning to make the outer ring of a small swashplate which will look like the photo. For hobby work with the size of parts we make and the diameter of tools we use high speed and low feed are the rule of thumb. Of course I'm talking about the small low speed bench machines. I don't know what size.

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Speeds & FeedsSpeeds & Feeds - CarbideClimb MillingDrill Time FormulaTool Coatings

Speeds & Feeds

Modern milling cutters capable of operating at higher feeds and speeds, and moving more cubic inches of metal per minute, require greater machine rigidity and more power.
Therefore it is important to determine that enough power is available to handle the desired depth and width of cut at the higher feeds and speeds.

T= Number of teeth in cutter
D= Cutter diameter in inches
RPM= Revolutions per minute
SFM= Surface feet per minute
F= Feed in inches per minute

f= Feed per tooth in inches
W= Width of cut
d= Depth of cut
HP= Motor horsepower
C= Machinability constant

Machinability constant values for various materials are based on removing one cubic inch of metal per minute per horsepower with 60% power efficiency at the spindle nose and a 25% allowance for cutter dulling.
Aluminum, Magnesium, Dural – 4.0 plus
Brass – 2.5
Soft Bronze, Copper – 2.0
Cast Iron – 1.5
Steel up to 150 Brinell, Malleable Iron – 0.75
Steel, 300 Brinell, Hard Bronze – 0.6
Steel, 400 Brinell – 0.5

T Slot Cutter Speeds And Feeds Aluminum

Climb Milling

In conventional milling, the cutter revolves opposite to the direction of table feed. Therefore the width of the chip starts at zero and increases to a maximum at the end of the cut. This can lead to accelerated tool wear under some conditions – conventional milling is recommended for hot rolled steel, surface hardened materials and steels with a surface scale. In climb milling, the cutter revolves in the same direction as the table feed. The tooth meets the work at the top of the cut, producing the thickest part of the chip first. In horizontal applications the resultant force created by climb milling can act as a clamping force, acting toward the machine table. It is important to make sure that the machine tool has no leadscrew backlash. Normally climb milling improves product surface finish and increases tool life.

T Slot Cutter Speeds And Feeds Aluminum Prices

Advantages of Climb Milling

Longer Tool Life: Since the chips produced are deposited behind the cutter, tool life can be substantially increased.

Ease of Fixturing: Climb milling exerts a downward clamping force on the workpiece and not an upward force as in conventional milling, which results in simplified fixturing.

Speeds

Improved Surface Finish: Since the chips are not carried by the cutter, less likelihood of marring the machined surface.

Lower Power Requirements: A higher rake angle can be utilized, lowering power consumption.

Better Chip Evacuation: Easier and faster chip removal since chips are deposited behind the cutter.

Drill Time Formula

Speeds & Feeds – Formula

Find:Have:Formula:
Revolutions per minute (RPM)SFM(SFM x 12) / (Diameter of drill x 3.1416)
Surface feet per minute (SFM)RPM(Diameter of drill x RPM x 3.1416) / 12
Feed rate per RPM (FR)SFM and FM(Diameter of drill x FM x 3.1416) / (SFM x 12)
Feed rate per RPM (FR)RPM and FMFM / RPM
Feed rate per minute (FM)FR and RPMRPM x FR
SFMRPM and drill dia..26 x RPM x drill diameter
RPMSFM and drill dia.3.8 x (SFM / drill diameter)

Speeds And Feeds Aluminum Cutting

Drill Speeds

MaterialSFM*
Aluminum and Aluminum Alloys150-300
Brass and Bronze (free cutting)150-300
Brass and Bronze (high tensile)70-120
Cast Iron (soft)80-120
Cast Iron (medium)60-90
Cast Iron (hard)30-70
Copper70-100
Magnesium200-400
Nickel Base Alloys20-50
Plastic and Related Materials100-200
Wood200-300

*Surface feet per minute

Drilling Time Formula

Time (Minutes) = Travel(in.) / RPM x Feed (per rev.)

T Slot Cutter Speeds And Feeds Aluminum Free

Travel = Sum of: Depth of Hole, 1/3 Drill Diameter, Approach Clearance, Over Travel (through cavities) / Total Travel (in.)

Drill Speeds (Steel)

MaterialSFM*
Alloyed – under 200 B.H.60-90
Alloyed – 200 – 300 B.H.40-70
Alloyed – over 300 B.H.20-30
Cast and Forged40-70
Heat Treated – 35 – 40 R.C.30-40
Heat Treated – 40 – 45 R.C.20-30
Heat Treated – over 45 R.C.10-20
Mild – .2 – .3 Carbon70-100
Mild – .4 – .5 Carbon50-80
Stainless – 300 Series20-50
Stainless – 400 Series30-70
Tool – over 1.0 Carbon40-60
Titanium Alloys20-50

*Surface feet per minute

Drill Feeds

Diameter (in.)Light FeedsHeavy Feeds
1/8.0005 – .0010.0015
3/16.0010 – .0015.0020
1/4.0015 – .0020.0025
5/16.0020 – .0025.0030
7/16.0025 – .0030.0035
1/2.0035 – .0040.0045
5/8.0045 – .0050.0055
3/4.0055 – .0060.0065

The above are suggested ranges. Due to many variable in an operation, more optimum speed may be established through trial.

T Slot Cutter Sizes

Tool Coatings

TiN – General purpose coating for Steels, Stainless Steels and Inconel. Excellent wear characteristics in roughing applications.

Small T Slot Cutters

TiCN – High performance in Die and Mold Steels, Hardened Materials, Steels and Stainless Steel. Ability to run at increased Feeds and Speeds over TiN coated tools.

Keyseat Cutter Speeds And Feeds

TiALN – Best results in Dry Milling applications at high temperatures. Works well in Hardened Materials, Titanium Alloys, Stainless Steels, Cast Irons, Graphite and HSM applications.