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Speed and Feed for Wood Cutter

CNC Feeds and Speeds Calculator Wood [Guide + Easy Tips]

CNC Feeds and Speeds Cookbook

Italian Olive by Cookwoods.com…

Here's your comprehensive guide to CNC Wood Cutting and Feeds and Speeds Calculator Wood, together with Tips and Techniques that are specific to cutting wood on a CNC Machine.

CNC Wood Cutting:  Types of Wood

When calculating feeds and speeds for wood, we generally look at 4 different families. You can see them in our G-Wizard Feeds and Speeds Calculator Wood's Material menu:

Feeds and Speeds Calculator Wood cutting feeds and speeds for wood

Just 4 wood types? Why not more?

To access the full variety of woods under each family, use the "More…" button on G-Wizard.

People wonder why we don't have a lot more categories.

The short answer answer is that there are hundreds of sub-categories corresponding to individual wood species accessible via the "More" button.  Use them if you need to fine tune for maximum performance.

But, for basic roughing work, also be aware that you can do a lot with just the main sub-categories.  This is due to the size of the "sweet spot" that relates feeds and speeds to good results in a material, together with the relative hardness of the woods (or other materials) versus the cutters (HSS or Carbide).

The Sweet Spot determines how the relationship between speed (spindle rpm) and feedrate need to come together for good cutting results. A typical Sweet Spot looks like this schematically:

Feeds and Speeds Calculator Wood

cnc wood cutting feeds and speeds for wood

The green areas reflect ideal Sweet Spot matches for a material and cutting conditions. You can optimize MRR (Material Removal Rate), Surface Finish, and to an extent a blend of all three. Red reflects danger zones.

It's important to note you can get into just as much trouble running too slowly (due to rubbing) as running too quickly.

Tools usually fail for a couple of main reasons:

– They get too hot, which softens the tool and results in a dull edge. Tools have a certain maximum speed, called the "Surface Speed" that governs how fast they can run against a given material. Running too slowly relative to feeds also generates a lot of heat due to Rubbing. This destroys a tool gradually, though gradual can mean a matter of minutes if the tool is hot enough.

– Tools can break because the flutes get too full, the chips have no place to go, and the tool jams and snaps off. This destroys a tool suddenly and is more commonly what beginners see.

A lot else can shorten a tools life–chipped edges in some materials, materials like stainless steel can "work harden" and suddenly become much harder during the cutting process, and some materials like aluminum try to weld themselves to the cutting edge if lubricant or appropriate tool coatings are not used. But, over heating and chip loading are the two main tool life enemies that are directly feeds and speeds related.

You can learn all this and much more from our free Feeds and Speeds Tutorial, but for now, let's stay with this idea of a Sweet Spot. In general, the sweet spots for woods are much larger than for metals. For harder steels and difficult materials like Titanium, the sweet spot gets very small indeed. Imagine there are actual numbers on our Sweet Spot diagram. "Size" of Sweet Spot refers to how wide a range of numbers are safe.

What determines the "Size" of a Sweet Spot?

A lot of this is all up to that relative difference in hardness between material and cutter. Even Carbide is not all that much harder than hardened steel whereas it is phenomenally harder than even the hardest woods. Red Oak, for example, has a Brinell Hardness of about 3.7. Mild steel is 120, hardened steel is 900, and tungsten carbide is 4000!

It turns out that the characteristics that affect the feeds and speeds for cnc wood cutting are different than hardness. They have to do for example with the behavior of the sap relative to the sawdust and how the chips are made.

Plastics, similarly, can behave differently–hard plastics as a name is a bit of a misnomer (though it is the industry standard in tooling catalogs). It refers to the chipping characteristics of the plastic. Hard Plastic turns to dust–it shatters. Soft Plastics allow a nice clean chip to be sliced off, almost like you slice cheese with a knife.

Of course, the same is true for woods. "Hard" Wood versus "Soft" Wood has more to do with the seeds of the Wood than the actual hardness. Balsa seems soft but is technically a Hardwood. Hardwood seeds have a covering–shell or fruit, while Softwood does not.

Another factor influencing all this has to do with manufacturing process for the material. In the case of materials like MDF and Plywood, their manufacture can result in abrasive grit being embedded in the layers and that grit matters more than the wood in feeds and speeds.

This is why so much router work prefers Carbide tooling even though wood is relatively soft. HSS just doesn't stand up to that kind of grit very well.

With all that said, there are still differences in hardness for various woods, and there is a standard scale, called the "Janka" scale that is used to rate the relative hardness of various woods.

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CNC Wood Cutting:  Softwood Database

Here are the various softwoods, sorted by Janka hardness, that one might attempt to CNC:

Common Name Scientific Name

Janka

Metric Hardness

K-N

Janka

Imperial Hardness

lb-feet

balsa Ochroma pyramidale 0.4 90
ceiba Ceiba pentandra 1.1 240
cottonwood – balsam poplar Populus balsamifera 1.3 300
white-cedar, northern Thuja occidentalis 1.4 320
aspen, quaking Populus tremuloides 1.6 350
buckeye, yellow Aesculus octandra 1.6 350
cedar, atlantic white Chamaecyparis thyoides 1.6 350
cottonwood, black Populus trichocarpa 1.6 350
fir, subalpine Abies lasiocarpa 1.6 350
red cedar, western Thuja plicata 1.6 350
willow, black Salix nigra 1.6 360
cuangare Dialyanthera spp. 1.7 380
okoume Aucoumea klaineana 1.7 380
pine, eastern white Pinus strobus 1.7 380
pine, sugar Pinus lambertiana 1.7 380
jelutong Dyera costulata 1.7 390
spruce, Engelmann Picea engelmanni 1.7 390
fir, balsam Abies balsamea 1.8 400
basswood, American Tilia americana 1.8 410
basswood, Carolina Tilia caroliniana 1.8 410
fir, noble Abies procera 1.8 410
aspen, bigtooth Populus grandidentata 1.9 420
pine, western white Pinus monticola 1.9 420
redwood, second growth Sequoia sempervirens 1.9 420
sajo Campnosperma panamensis 1.9 425
cottonwood, eastern Populus deltoides 1.9 430
fir, pacific silver Abies amabilis 1.9 430
obeche Triplochiton scleroxylon 1.9 430
pine, limber Pinus flexilis 1.9 430
cypress, Mexican Cupressus lustianica 2 460
pine, ponderosa Pinus ponderosa 2 460
shorea, light red meranti Shorea spp., lauan-meranti group 2 460
incense-cedar Libocedrus decurrens 2.1 470
fir, white Abies concolor 2.1 480
pine, lodgepole Pinus contorta 2.1 480
redwood, old growth Sequoia sempervirens 2.1 480
spruce, white Picea glauca 2.1 480
chalviande Virola spp. 2.1 481
butternut Juglans cinerea 2.2 490
fir, grand Abies grandis 2.2 490
limba Terminalia superba 2.2 490
spruce, red Picea rubra 2.2 490
fir, California red Abies magnifica 2.2 500
hemlock, eastern Tsuga canadensis 2.2 500
pine, Jeffrey Pinus jeffreyi 2.2 500
banak Virola spp. 2.3 510
Douglas-fir, interior south Pseudotsuga menziesii 2.3 510
spruce, Sitka Picea sitchensis 2.3 510
tulapueta Osteophloeum platyspermum 2.3 512
spruce, black Picea mariana 2.3 520
chestnut, American Castenea dentata 2.4 540
hemlock, western Tsuga heterophylla 2.4 540
poplar Liriodendron tulipifera 2.4 540
yellow poplar Liriodendron tulipifera 2.4 540
catalpa, northern Catalpa speciosa 2.4 550
catalpa, southern Catalpa bignonioides 2.4 550
hura Hura crepitans 2.4 550
pine. red Pinus resinosa 2.5 560
baldcypress Taxcodium distichum 2.3 570
pine, jack Pinus banksiana 2.5 570
cedar, Alaska Chamaecyparis nootkatensis 2.6 580
cedar, yellow Cupressus nootkatensis 2.6 580
alder, red Alnus rubra 2.6 590
silverbell, Carolina Halesia carolina 2.6 590
tamarack Larix laricina 2.6 590
Douglas-fir, interior north Pseudotsuga menziesii 2.7 600
Spanish-cedar Cedrela spp. 2.7 600
ilomba Pycnanthus angolensis Exell 2.7 610
red cedar, southern Juniperus silicicola 2.7 610
pine, pitch Pinus rigida 2.8 620
cativo Prioria copaifera 2.8 630
sassafras Sassafras albidum 2.8 630
alder, European Alnus glutinosa 2.9 650
determa Ocotea rubra 2.9 660
Douglas-fir, interior west Pseudotsuga menziesii 2.9 660
pine, spruce Pinus glabra 2.9 660
pine, Table Mountain Pinus pungens 2.9 660
primavera Tabebula donnell-smithii 2.9 660
pulgande Dacryodes spp. 3 666
hemlock, mountain Tsuga mertensiana 3 680
sumac, staghorn Rhus typhina 3 680
pine, loblolly Pinus taeda 3.1 690
pine, shortleaf Pinus echinata 3.1 690
magnolia, cucumber tree Magnolia acuminata 3.1 700
maple, silver Acer saccharimum 3.1 700
Douglas-fir, coast Pseudotsuga menziesii 3.2 710
boxelder Acer negundo 3.2 720
cedar, Port Orford Chamaecyparis lawsoniana 3.2 720
chinkapin, giant Castanopsis chrysophylla 3.2 730
pine, sand Pinus clausa 3.3 730
pine, pond Pinus serotina 3.3 740
pine, virginia Pinus virginiana 3.3 740
birch, gray Betula populifolia 3.4 760
pine, slash Pinus elliotti 3.4 760
shorea, yellow meranti Shorea spp., lauan-meranti group 3.4 770
sycamore, american Platanus occidentalis 3.4 770
parana-pine Araucaria augustifolia 3.5 780
shorea, dark red meranti Shorea spp., lauan-meranti group 3.5 780
mahogany, true Swietenia macrophylla 3.6 800
magnolia, sweetbay Magnolia virginiana 3.6 810
tupelo, black Nyssa sylvatica 3.6 810
elm, american Ulmus americana 3.7 830
larch, western Larix occidentalis 3.7 830
mahogany, African Khaya spp. 3.7 830
elder, blue Sambucus cerulea 3.7 840
ash, black Fraxinus nigra 3.8 850
maple, bigleaf Acer macrophyllum 3.8 850
sweetgum Liquidambar styraciflua 3.8 850
elm, slippery Ulmus rubra 3.8 860
pine, pinyon Pinus edulis 3.8 860
pine, longleaf Pinus palustris 3.9 870
hackberry Celtis occidentalis 3.9 880
tupelo. water Nyssa aquatica 3.9 880
red cedar, eastern Juniperus virginiana 4 900
sande Brosimum spp., utile group 4 900
birch, paper Betula papyrifera 4 910
ekop Tetraberlinia tubmaniana 4.1 910
pine, ocote Pinus oocarpa 4 910
anime Protium spp. 4.1 920
sourwood Oxydendrum arboreum 4.2 940
cherry, black, American Prunus serotina 4.2 950
maple, red Acer rubrum 4.2 950
robe Tabebul spp., roble group 4.3 960
ash, pumpkin Fraxinus profunda 4.4 990

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CNC Wood Cutting Hardwood Database

Here are the various hardwoods, sorted by Janka hardness, that one might attempt to CNC:

Common Name Scientific Name

Janka

Metric Hardness

K-N

Janka

Imperial Hardness

lb-feet

teak Tectona grandis 4.4 1000
walnut, black Juglans nigra 4.5 1010
albarco Cariniana spp. 4.5 1020
holly, American Ilex opaca 4.5 1020
magnolia, southern Magnolia grandiflora 4.5 1020
buckthorn, cascara Rhamnus purshiana 4.6 1040
oak, southern red Quercus falcata 4.7 1060
avodire Turraeanthus africanus 4.8 1080
manni Symphonia globulifera 5 1120
andiroba Carapa guianensis 5 1130
oak, chestnut Quercus prinus 5 1130
shorea, white meranti Shorea javanica, lauan-meranti group 5.7 1140
cherry, wild, European Prunus avium 5.1 1150
santa maria Calophyllum brasiliense 5.1 1150
ash, oregon Fraxinus latifolia 5.2 1160
juniper, alligator Juniperus deppeana 5.2 1160
maple, black Acer nigrum 5.2 1180
oak, overcup Quercus lyrata 5.3 1190
oak, water Quercus nigra 5.3 1190
ash, green Fraxinus pennsylvanica 5.3 1200
oak, black Quercus velutina 5.4 1210
oak, laurel Quercus laurifolia 5.4 1210
pine, heart Pinus resinosa 5.5 1225
kapur Dryobalanops spp. 5.5 1230
oak, swamp chestnut Quercus michauxii 5.5 1240
pine, Caribbean Pinus caribaea 5.5 1240
birch, river Betula nigra 5.6 1260
birch, yellow Betula alleghaniensis 5.6 1260
iroko Chlorophora spp. 5.6 1260
keruing Dipterocarpus spp. 5.6 1270
laurel, California Umbellularia californica 5.6 1270
myrtlewood Umbellularia californica 5.65 1270
angelique Dicorynia guianensis 5.7 1290
mersawa Anisoptera spp. 5.7 1290
oak, northern red Quercus rubra 5.7 1290
oak, shumard Quercus shumardii 5.8 1290
beech, American Fagus grandifolia 5.8 1300
ramin Gonystylus bancanus 5.8 1300
alder, white Alnus rhombifolia 5.9 1320
ash, white Fraxinus americana 5.9 1320
elm, cedar Ulmus crassifolia 5.9 1320
elm, rock Ulmus thomasii 5.9 1320
ovangkol Guibourtia ehie 5.9 1330
oak, post Quercus stellata 6 1360
oak, white Quercus alba 6 1360
oak, bur Quercus macrocarpa 6.1 1370
cypress, Australian Callitris glaucophylla 6 1375
coffeetree, Kentucky Gymnocladus dioicus 6,2 1390
oak, scarlet Quercus coccinea 6.2 1400
sepetir Pseudosindora palustris 6.3 1410
tanoak Lithocarpus densiflorus 6.3 1420
maple, sugar (hard) Acer saccharum 6.4 1450
madrone, Pacific Arbutus menziesii 6.5 1460
oak, willow Quercus phellos 6.5 1460
birch, sweet Betula lenta 6.5 1470
oak, cherrybark Quercus falcata varpagodifolia 6.6 1480
hickory, bitternut Carya cordiformis 6.7 1500
merbau Intsia spp. 6.7 1500
pau marfim, Patagonian maple Balfourodendron riedelianum 6.7 1500
oak, pin Quercus palustris 6.7 1510
sapele Entandrophragma cylindricum 6.7 1510
witch hazel Hamamelis virginica 6.8 1530
elm, winged Ulmus alata 6.8 1540
hickory, water Carya aquatica 6.9 1550
afrormosia Pericopsis elata 6.9 1560
honeylocust Gleditsia triacanthos 7 1580
peroba de campos Paratecoma peroba 7.1 1600
yew, Pacific Taxus brevifolia 7.1 1600
oak, swamp white Quercus bicolor 7.2 1620
opepe Nauclea diderrichii 7.3 1630
alder, Nepalese Alnus nepalensis 7.4 1690
locust, black Robinia pseudoacacia 7.6 1700
pilon Hyeronima spp. 7.6 1700
kempas Koompassia malaccensis 7.6 1710
para-angelim Hymenolobium excelsum 7.7 1720
piquia Caryocar spp. 7.7 1720
apple Malus sylvestris 7.7 1730
peroba rosa Aspidosperma spp., peroba group 7.7 1730
tree-of-heaven Ailanthus altissima 7.7 1731
angelin Andira inermis 7.8 1750
benge Guibourtia arnoldiana 7.8 1750
hornbeam, American Carpinus caroliniana 7.9 1780
shorea Shorea spp., baulau group 7.9 1780
ebony, black and white, pale moon Diospyros malabarica 7.9 1790
laurel, mountain Kalmia latifolia 8 1790
serviceberry Amelanchier spp. 8 1800
hickory, shellbark Carya lacinosa 8.1 1810
hickory, pecan Carya illinoensis 8.1 1820
hophornbeam, eastern Ostrya virginiana 8.3 1860
purpleheart Peltogyne spp. 8.3 1860
hickory, shagbark Carya ovata 8.4 1880
jarrah Eucalyptus marginata 8.5 1910
wenge Millettia laurentii 8.4 1930
degame Calycophyllum candidissimum 8.6 1940
hickory. mockernut Carya tomentosa 8.8 1970
pedauk – African Pterocarpus soyauxii 8.6 1970
ash, blue Fraxinus quadrangulata 9 2030
karri Eucalyptus diversicolor 9.1 2040
wallaba Eperua spp. 9.1 2040
hickory, pignut Carya glabra 9.5 2140
sucupira Diplotropis purpurea 9.5 2140
dogwood, flowering Cornus florida 9.6 2150
goncalo alves Astronium graveolens 9.6 2160
mahogany, Santos, Cabreuva Myroxylon balsamum 9.8 2200
tornillo Cedrelinga cateniformis 10.2 2299
ebony, persimmon, white Diospyros virginiana 10.2 2300
mora Mora spp. 10.2 2300
persimmon, common Diospyros virginiana 10.2 2300
mesquite Prosopis spp. 10.4 2345
cherry, Brazilian Castenea dentata 10.4 2350
courbaril Hymenaea courbaril 10.5 2350
greenheart Chlorocardium rodiei 10.5 2350
ebony, Ceylon, East Indian Diospyros cebenum 10.8 2430
granadillo Platymiscium yucatanum 10.9 2450
oak, live Quercus virginiana 12.9 2680
bubinga Guibourtia spp. 12 2690
olive Olea europaea, O. capensis 2700
rosewood, Brazilian Dalbergia nigra 12.1 2720
sucupira Bowdichia brasiliensis 12.2 2750
osage orange, horse apple Maclura pomifera 12.3 2760
bloodwood, conduru, cardinal wood Brosimum rubescens 14 2900
kaneelhart Licaria spp. 12.9 2900
ebony, mun Diospyros mun 13.4 3000
macawood Platymiscium spp. 14 3150
rosewood, Indian Dalbergia latifolia 14.1 3170
bulletwood Manilkara bidentata 14.2 3190
ebony, African, Gaboon, Nigerian Diospyros crassiflora 14.1 3220
ebony, Macassar, striped Diospyros celebica 14.1 3220
azobe Lophira alata 14.9 3350
manbarklak Eschweilera spp. 15.5 3480
ipe Handroanthus spp. (lapacho group), Brazilian walnut 15.6 3510
marishballi Lincania spp. 15.9 3570
lignumvitae Guaiacum spp. 20 4500

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Tips and Techniques for CNC Wood Cutting

Feeds and Speeds Calculator Wood

For CNC Wood cutting applications, a good Feeds and Speeds Calculator needs the following features:

– A detailed wood database to fine tune Feeds and Speeds by wood species.

– Support for the special cutters used by CNC Routers such as downcut, compression, and straight flute.

– If you have a hobby-class machine, it isn't as sturdy or rigid as a commercial machine. Feeds and Speeds will need to be adjusted.

– Support to help you limit feeds and speeds to levels that won't pop the parts of your vacuum table.

Our G-Wizard Calculator is the world's first feeds and speeds calculator specifically designed for CNC Router use, and it does all that and more.

feeds and speeds for wood, Feeds and Speeds Calculator Wood

G-Wizard's Material Database has hundreds of wood species built-in…

CNC Feeds and Speeds Chart Wood

Access to a good Feeds and Speeds Calculator Wood will put you light years ahead of charts, but in a pinch if you don't have a calculator, you can use this CNC Feeds and Speeds Chart as a starting point.

SFM for Wood (Cutting Speed for Wood)

With a carbide endmill, typical SFM for Wood values might be:

  • Hardwood:  1500 SFM
  • Softwood:  1500 SFM
  • MDF:  1500 SFM
  • Plywood: 1500 SFM

CNC Feed Rate for Wood

Feed rate is a function of chipload.  Using feeds and speeds formulas, you can find the CNC Feed Rate for Wood from these chiploads.  Or, use a Feeds and Speeds Calculator Wood like our G-Wizard to make it easier.  Here are the cnc chip loads for wood:

  • Hardwood:  0.0145 IPT
  • Softwood:  0.0152 IPT
  • MDF:  0.0131 IPT
  • Plywood: 0.0143 IPT

Note, those are typical numbers for a 1/2″ diameter carbide endmill cutting a full width slot to a depth of 1/4″.  Changing any of those variables will affect the CNC Feed Rate for Wood.  Use a Feeds and Speeds Calculator to make the adjustments automatically as the variables change.

Carbide or HSS Cutters?

In most cases, you'll want to purchase carbide cutters. First, a lot of wood products such as plywood and MDF can contain considerable amounts of highly abrasive grit due to the way they are manufactured. That grit radically shortens the life of HSS tools and you'll need carbide to stand up to it. Second, the spindle speeds used in most CNC wood cutting are very fast, and this is also advantageous for Carbide because it tolerates the higher temperatures associated with the fast speeds better. Lastly, carbide is much stiffer than HSS, and so tool deflection is less likely to be a problem. Here is a great article: What Every CNCer Ought to Know About Tool Deflection.

Avoid Splintering the Surface with Special Router Bits

CNC Machining Plywood and many other wood products often results in splintering and tear out.  Special milling cutters can really minimize splintering.

Specialize milling cutter for wood are available to help reduce the likelihood of splintering the surface of your wood (or laminated materials too):

– Upcut: This is the normal end mill style. The spiral flute carries chips up and out of the hole as it cuts. These are probably the worst about splintering, though with serious fine tuning and slower feeds and speeds you may be able to tame it a bit.

– Downcut: With downcut geometry, the spiral is reversed so it pushes down instead of pulling up. This is great for reducing splintering of the top surface, but you do want to be careful the chips can go somewhere. Cutting deep tight slots can be problematic for this type of cutter sometimes.

– Compression: A compression cut is a combination of upcut and downcut. It has the spiral set to pull up at the bottom of the material, then it reverses direction at the top. It's name comes because it is pushing the chips to the center of the cutter, or "comrpessing" them, in other words. Compression cutters can avoid splintering both top and bottom, so are ideal for many applications where you're making one pass to cut all the way through the material.

– Straight Flute: Straight flutes have no twist. This reduces their likelihood of splintering, and it also makes the cutters cheaper. However, their performance is not so hot in terms of ultimate feeds and speeds.

For much more on Cutters for CNC Routers, see our specific article.

cnc wood cutting

More Splintering and Tear-Out Tips

  • The more porous the wood, the more likely it is to splinter.
  • Slower, shallower cuts will reduce the splintering.
  • Climb Cutting can make tear-out less like than Conventional Milling.
  • Spray a sealer like laquer on the wood to give it a little more support.

Tips to minimize Router Burning Wood

Tired of those annoying burn marks on your edges?  Here are some tips to help:

  • Make sure you're running proper feeds and speeds so that your cutters won't rub.  Rubbing generates a lot of heat.  You need a Feeds and Speeds Calculator to do the job right.  Preferably one like our G-Wizard that has a Rubbing Warning.
  • Keep cutters clean.  Any dust or resin buildup adds friction which can lead to overheating the material.
  • Use sharp cutters.  If you can run your fingernail over the edge without shaving off a bit of fingernail, your cutter is probably dull.
  • Take shallower passes.  Hogging with deep passes removes material fast, but it can also cause tear-out and overheating that leads to burning.

If the cutter is getting hot to the touch (careful!), and especially if there is any discoloration or the wood is being burnt, your feedrate relative to the proper feedrate is too slow, and the cutter is rubbing. For a full explanation of rubbing, see this article from our Feeds and Speeds Tutorials.

cnc wood cutting, Feeds and Speeds Calculator Wood

Geometry causes rubbing when we feed cutters too slowly. It heats everything up and will burn wood…

CNC Wood Cutting: CNC Router or VMC?

Would you believe that for many CNC wood cutting applications, a VMC (Vertical Machining Center) can make more sense than a CNC Router? All sorts of companies like Taylor Guitars and Fender are using VMC's on a daily basis for woodwork. That link has the details, but here are some of the reasons why:

– Cost: When high levels of precision are needed (guitar making is very precise), the VMC can achieve precision at a lower price point.

– Floor Space: Most of the gantries are set up to take 4×8 sheets.  These custom shops are doing smaller runs and they're not machining plywood sheets.  The desire to include climate control to keep the wood stable also means shop floor square footage is at a premium.  Smaller machine footprints help keep this cost under control.

– Dust Control:  The full enclosure of a VMC really helps keep the dust down in the shop.

– Tool Changer:  While they're certainly available for CNC Routers, they're standard on VMC's.  Fender needs 21 tools for their application and keeps 20 in the changer and the 21st sits in a dedicated space on the table where the spindle can fetch it as needed.

Vacuum Table Tips

Vacuum Tables are often the preferred method of workholding for cnc wood cutting, and we have a huge page chock full of great information on how to use Vacuum Tables.

Check out our Total Guide to Vacuum Tables…

Best Wood for CNC Carving or CNC Routing

These woods are well-regarded for carving:

  • Basswood:  Great choice for beginners.  This white wood has almost no grain and is very soft, making it easier for beginners.
  • Aspen:  Another white wood.  It's stronger than basswood but still quite soft.
  • Butternut:  Another Best Wood for CNC Carving choice.  Browner than Basswood or Aspen and with a nice grain.  It's similar to Walnut but lighter in color and easier to carve.  It polishes very nicely.
  • Black Walnut:  More expensive than the others above, but it delivers a rich color and grain.
  • Oak:  Another popular choice for Best Wood for CNC Carving.  It is strong and sturdy with a very defined grain.
  • MDF carves nicely and can be an excellent practice material.

Keep in mind that softer woods will have more of a tendency to tear out.

More CNC Wood Cutting Resources

Machining Wood in a Vertical Machining Center

CNC Machining Fuels Guitar Innovations

They Build Dreams: The Fender Custom Shop

Onsrud CNC Production Routing Guide

How to Survive Your First CNC Router Fire

Lumber Size Information

cnc router feeds speeds calculator

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Source: https://www.cnccookbook.com/feeds-speeds-cnc-wood-cutting/