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A Little Bit on Router Bits
An introduction to the basics of router
bits.
| A router is one of the most useful tools a
workshop can have. Few tools can rival a router for its versatility. With the proper jigs
and a little creativity you can use a router to cut out circles, edge-join wood and
veneer, plane wood, cut mortise and tenons, rout a dado groove, make copies from a
pattern, and an almost unlimited number of other things. The most common use for a
router is to add shapes and profiles to the edge of a project. Before the router was
invented, early woodworkers had to use special planes fitted with custom blades to create
these patterns. With a router and a pilot bit, you can create the same shapes in a matter
of minutes. Few tools are as accurate as a router; many woodworkers use a router to
straighten and smooth joints that must be cut to the highest tolerances. |
3hp Plunge Router
Click on all Pictures
to Enlarge. |
Bits
The bit is arguably the most important element in ensuring a quality finish and a good
clean cut. You are probably wondering, "What about the router or woodworker?
Aren’t they just as important?" While both the router and the woodworker are
important, neither are as critical as a good quality bit. The router simply turns the bit;
the woodworker can learn to improve his techniques, but even an experienced woodworker
will have trouble getting good results from a poor quality bit. There are a wide
variety of router bits available today. The number of bits is limited only by the
imagination of the companies that make them. You should be able to find them at your local
hardware stores or by mail through a catalog. (See end of article
for sources) They are made all around the world - from the United States, to
Israel, and the Pacific Rim. |
Large Panel Bit
|
Carbide vs. HSS bits
The vast majority of bits on the market today are carbide tipped. Carbide is an extremely
hard material. Its density actually rivals that of a diamond! Carbide has a number of
advantages; it’s very resistant to heat, and it keeps an edge (stays sharp) longer
than steel. It does have a number of drawbacks; it’s very brittle, prone to chipping,
and it’s very expensive. This is why most bits are carbide tipped and not made from
solid carbide.HSS bits (High Speed Steel) were the only type available for a number of
years. They are still available from a number of hardware stores and catalogs. HSS bits
are best suited for occasional work. A HSS bit is considerably less expensive than a
comparable carbide bit. HSS bits tend to dull relatively quickly and need to be
re-sharpened to keep from burning the wood’s surface. Some manufacturers coat their
HSS bits with Titanium Nitride to help them stay sharper longer. Unfortunately, this
coating eventually wears off. It will disappear quicker if you work with hardwoods. A
carbide bit can last up to 20 times longer that a HSS bit - making it far cheaper in the
long run. |
Carbide Pattern Bit
HSS 1/4" Bit
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Pilot vs. Non-Pilot
There are two different types of bits; Pilot and Non-Pilot. Pilot bits are fitted with a
ball bearing that keeps them a fixed cutting distance from the edge of the wood. They are
used most commonly to rout a profile on the edge of a workpiece or as a flush trim bit.
Non-pilot bits do not have a bearing and are used in conjunction with a fence or jig of
some sort to control their cutting paths. |
Non Pilot bit (Left)
Pilot Bit (Right)
|
Chip Limiting Bits –
"Safety Bits"
Chip limiting bits are a relatively new arrival in the world of woodworking. Spawned from
German legislation that mandates increased safety, many bit manufacturers are now offering
their own chip limiting bits. The bits are designed with an extra body mass that extends
further back on the bit. This extra mass reduces the amount of material that can be fed
into the bit’s cutters. Reducing the amount of material that can be fed reduces the
chance of over-feeding the bit. This, in turn, reduces the chance of the bit kicking back
or splintering the wood. The picture to the right shows the difference between a chip
limiting and normal router bit. |
Chip Limiting &
Normal Bit |
Does size really matter?
Router bits are most commonly available in two sizes; ¼" and ½". This size
refers to the diameter of the shank; the part of the bit that is inserted into the router.
Larger routers are supplied with two collets that will allow them to accept either size
shank. Most small routers are limited to ¼" bits because of their smaller motors. Is
there an advantage to one size over the other? Yes and no; it depends on your use.
1/2" bits have a couple of advantages. First, the thicker diameter of the shank
reduces vibration and is more resistant to bending or breaking. Second, the larger shank
allows you to use a larger diameter bit. If your router will accept ½" bits it is
best to use them.
The price difference between a ½" and a ¼" inch bit is negligible; many are
the same price. The only place you are likely to see an increased price is in the router
itself. Most lower priced routers only support ¼" bits or larger, more expensive
routers support both bit sizes. |
1/4" and 1/2" BitsClick on all Pictures
to Enlarge. |
For You?
Which bit is better for you? Again, it depends on what you plan to do with it. If you need
a router for basic routing, small edge profiles, and rounding over, then a ¼" router
is probably sufficient. However, if you plan to eventually do more advanced routing;
cabinetmaking for example, you should consider investing in a ½" router. |
|
Selecting the right bit for the job
In the interest of safety, you should always select the right bit for the job. If the job
you are working on requires a 3/8" straight bit (for a dado) don’t use a
1.5" straight bit. Longer bits tend to generate more vibration and this vibration
causes wear on your router and bit. Vibrations also result in a less accurate cut. Try to
select a bit with the largest diameter shank possible. |
|
Using a pilot bit
If you are using a pilot bit make sure the bearing rotates freely. A frozen bearing can
burn the edge of your workpiece. There are two things to remember when using a pilot bit.
First, don’t push too hard or you risk denting softwoods with the bearing. Second, be
sure to apply enough pressure to keep the bearing pressed against the wood. If it is
allowed to spin on its own, it may burn the wood. Confused? With time you will learn the
right amount of pressure for the job. |
Flush Trimming Bits
|
Pitch and tar
When working with some woods, pine in particular, it is inevitable that pitch and tar will
build up on your bit. This pitch can force the bit and router to work harder. This
generates excessive heat, which reduces bit life. Pitch and tar can also collect on the
surface of the bearing. This can force the bit to roll unevenly and "bounce" on
the surface, leaving a rough finish. Pitch and tar can often be scraped off with a scrap
of wood or removed with a commercial bit cleaner. |
Pitch and Tar on Bit |
Bit and collet condition
The condition of your bit and collet are important to the quality of your work and your
personal safety. Inspect your collet regularly for signs of wear; replace immediately if
you suspect any damage. Rust and corrosion on either the bit or the collet reduce the
collet’s holding power. Keep the collet and bit free of lubricants that might loosen
this bond. Always insert your bit all of the way into the collet and then back it out a
little (1/16"). This will help insure it is properly seated. Make sure the collet is
free from sawdust, shavings, or any other foreign bodies. As a safety precaution, you can
mark a vertical line on your bit’s shank and a matching line on your
collet. Line the
two lines up. After you finish using your router check the lines. If they are not lined up
any more, your bit is slipping in your collet. This is a sign that it might be time to
replace the collet. Before buying a bit you should inspect it thoroughly to make sure
the brazing that holds the carbide on is done properly. If it looks sloppy, or has open
voids or pits, don’t buy the bit. The surface of the bit’s body should be free
of rust or pitting. It should be ground well and smooth to the touch. A rough finish will
tend to collect sap and pitch and will slow the bit down. Inspect the cutting edge of the
bit to make sure the carbide is free of grinding marks or chips. |
Marks Lined Up
Bit Has Slipped
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| Bit Lingo Solid
Bit – A router bit machined from a solid piece of steel. In some cases a screw is
mounted on the top for the bearing.
Pilot Bit – A router bit fitted with a bearing or less commonly, a steel
pin coming from it’s top. The bearing rubs the edge of the workpiece and limits the
cut of the bit. The bearing spins at the rate the router is moved while the bit spins at
the speed of the router. Different size bearings can be used to achieve different depth of
cuts.
Arbor – The arbor is the shaft of a router bit that typically fits into the
collet.
Collet - In a router, the collet is the sleeve that grips the shank on a router
bit.
Shank - The part of the router bit that is inserted into the
collet.
HSS – High Speed Steel – A heat resistant form of steel used to make
some router bits, saw blade, and drill bits.
Carbide – A very hard and brittle metal made from tungsten-carbon particles
fused with
Cobalt - Carbide is harder and more heat resistant that steel but it is also
more expensive.
Titanium Nitride – Titanium Nitride is a surface coating that is often
added to HSS router and drill bits. It improves surface hardness and increases lubricity,
Bits coated in titanium nitride have a golden tint to them.
Hook or Rake – The degree to which the cutter leans into the cut. |
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Company |
Router Bits |
Routers |
Accessories |
Notes: |
Amana Tool Company
120 Carolyn Boulevard
Farmingdale, NY 11735
(800) 445-0077
www.amanatool.com
|
X |
- |
- |
Amana is a major manufacturer of high quality router
bits. |
Black & Decker
701 East Joppa Road,
Baltimore, MD 21286
(410) 716-3900
www.blackanddecker.com
|
X |
X |
X |
Black & Decker also makes DeWalt and Elu brand
tools. |
Robert Bosch Power Tool Company
100 Bosch Boulevard
New Bern, NC 28562
(800) 815-8665 |
X |
X |
X |
|
Cascade Tools Inc.
Box 3110
Bellingham, WA 98227
(800) 235-0272 |
X |
- |
X |
|
Jesada Tools
5425 Beaumont Center Boulevard
Suite 900
Tampa, FL 33634
(800) 531-5559
www.jesada.com
|
X |
- |
- |
|
Eagle America Corp
124 Parker Court
P.O. Box 1099
Chardon, OH 44024
(800) 872-2511
eagleam@ix.netcom.com |
X |
- |
X |
|
Freud
P.O. Box 7187
High Point, NC 27264
(910) 434-3171 |
X |
X |
X |
|
Grizzly Imports, Inc.
P.O. Box 2069
Bellingham, WA 98227
1-800-523-4777 |
X |
- |
X |
|
Hitachi Power Tools USA Ltd.
3950 Steve Reynolds Boulevard
Norcross, GA 30093
(770) 925-1774
www.hitachi.com
|
- |
X |
- |
|
American Tool Company
92 Grant Street
Wilmington, OH 45177
(937) 382-3811 |
X |
- |
- |
The Irwin Co. makes Byron brand bits. |
Makita USA Inc.
14930-C Northam Street
La Mirada, CA 90638
(714) 522-8088 |
- |
X |
X |
|
Milwaukee Electric Tool Company
13135 West Lisbon Road
Brookfield, WI 53008
(414) 781-3600
www.mil-electric-tool.com
|
- |
X |
- |
|
MLCS Ltd.
P.O. Box 4053 C-12
Rydal, PA 19046
(800) 533-9298
www.mlcswoodworking.com
|
X |
- |
X |
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Paso Robles Carbide Co.
731-C Paso Robles Street
Paso Robles, CA 93446
(805) 238-6144 |
X |
- |
- |
Ocemco brand bits.
Sell only through dealers -
www.carbideshop.com
|
Porter-Cable Corporation
P.O. Box 2468
4825 Highway 45 North
Jackson, TN 38302-2468
(901) 668-8600 |
X |
X |
X |
|
Ryobi America Corp.
1501 Pearman Dairy Road
Anderson, SC 29625
(800) 323-4615
www.ryobi.com |
- |
X |
- |
|
Woodhaven
5323 West Kimberly
Davenport, IA 52806
(800) 344-6657
www.woodhaven.com |
X |
- |
X |
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