Everlast Catalog - Everlast Saw and Carbide Tools

Transcription

www.everlastsaw.com
Dear Valued Customer,
EVERLAST began with the belief that quality and service to its customers was the formula
for future success. Founded by Mr. Pat Farengo in 1947, EVERLAST started as a service
company specializing in the maintenance of cutting tools used in the woodworking
industry.
As the introduction and use of Tungsten Carbide Tipped Tools became more widely
acceptable in woodworking, EVERLAST began to specialize in TCT Tooling and started to
manufacture specialty tooling, router bits, and saw blades.
In 1974 EVERLAST turned all of its attention and efforts to producing the highest quality
TCT Saw Blades and now carries a product range from 2 inches to 18 inches in diameter in
its standard program and 2 inches to 22 inches in diameter in its custom made saw
program. Millimeter sizes are also included.
Our standard saw line includes saws for such specialty applications as Glue Line, Solid
Surface, Mitre, Countertop, and Plastic Cutting.
We also offer a line of the highest quality Router Bits, Metric Boring Bits, Face Frame Bits,
and Solid Carbide Spiral Compression Bits. All items are backed by the Everlast
Guarantee of Quality.
Please see our catalogue pages for complete details, and be sure to visit our website at
www.EVERLASTSAW.com, for up to the minute product information.
Sincerely
Vincent Farengo
President
Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
CARBIDE TIPPED CIRCULAR SAW BLADES
Safety Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-5
Technical Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-7
Glue Line Rip, Heavy Duty Rip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
Astra Wood . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
Combination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
General Purpose Cut-Off . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
Standard Purpose Cut-off . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
Special Purpose Cut-off . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10,11
Double Cut-off & Trim . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
Plex-Cut . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
Thin Rim, Thin Kerf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
Radial Overarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
Mitre Saws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
Astra Mitre Saws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
Double Faced Laminate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
Double Faced Veneer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
Non-Ferrous Metal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
Steel-Kut . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
Astra Series Panel Saws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
Astra Scoring Saws, Split Scoring Saws . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
Astra Series Panel Saws Sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
Countertop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
Astra Solid Surface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
Dado Sets, Outside Dado Saws, Chippers . . . . . . . . . . . . . . . . . . . . . . . . . .18
Groovers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
Egde Bander . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
Biscuit Cutter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
Custom Saw Blade Quotation Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
CARBIDE TIPPED ROUTER BITS
Safety Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22-23
Plunge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
Solid Carbide Compression Spiral, Rabbet, Screw-Type Mortise . . . . . . . .25
Solid Carbide Flush Trim, Bevel, Dado . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
Slotting Cutters, Tongue & Groove Assembly . . . . . . . . . . . . . . . . . . . . . . . .27
Flush, Templet Flush, Chamfer W/Bearing . . . . . . . . . . . . . . . . . . . . . . . . . .28
Cove, Corner Round, Roman O-Gee W/Bearing . . . . . . . . . . . . . . . . . . . . . .29
Ball Bearings and Arbors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30
CARBIDE BORING BITS
Brad Point, Hinge Boring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32
Counter Bore (Face Frame) and Replacement Drill . . . . . . . . . . . . . . . . . . .32
Florida Toll Free: 1-800-EVRLAST • New York Toll Free: 1-800-TCT SAWS
WARRANTY
Everlast (hereinafter) “we”, “our”, and “us”) warrants each tool to be
free of defects at the time of manufacture and, within the limits of our
control, for the normal life of the tool, provided the tool has not been
misapplied or misused. This warranty does not extend to any tool
which has been worn out or made dull from extended use or which
has been altered or modified by sharpening or other servicing performed on the tool by a facility other than our own. Any tool believed
to be a defective should be returned to us, postage prepaid, for our
inspection so that we may determine whether or not a defect exists. If
we determine a tool to be defective, we will repair or replace it, at our
option, free of charge. We disclaim responsibility for any incidental or
consequential damages arising from the failure of any tool to conform
to this warranty or other standards. The above warranty is in lieu of
all other warranties express or implied. Everlast is continuously
involved in research to upgrade the quality and productivity of its
tools, and users are invited to contact Everlast for information about
the most up-to-date developments and improvements in its tool
technology.
CARBIDE TIPPED
CIRCULAR SAW BLADES
SAFETY GUIDE
for the operation of
CARBIDE TIPPED SAW BLADES
Read Completely Before Attempting To Operate Carbide Tipped Saw Blades
This leaflet of safety and operating
instructions is not intended to be and is
not totally comprehensive; that is it
does not and cannot cover every
possible safety problem which may
arise in using specialized and standard
tooling on varying machines and
applications. This leaflet is rather
intended to generally describe many of
the basic safety and operating
procedures which should be followed
and to describe the types of safety considerations which should be
considered in operating cutting tools.
None of the statements or information
presented in this leaflet should be
interpreted to imply any warranty or
safety protection.
The drawings do not depict any
particular design, type, or size of tools
equipment or machines. The drawings
are illustrative only and are not to be
construed to establish any exact mode,
method or procedure.
All Federal and State laws and
regulations having jurisdiction covering
the safety requirements of cutting tools
at the point of usage take precedence
over the statements and information
presented in this leaflet. Users of
cutting tools must of course adhere to
all such regulations. As an aid to
cutting tools users a number of such
regulations are listed below. The list
does not include all regulations that
may apply.
1. The Federal Register dated June 27
1974 Dept.of Labor Office of Safety
and Health Administration (The
OSHA Act)
2. American National Standards
Institute, 01.1-1975 (Safety
Regulations for Woodworking
Machinery)
Institute 02.1-1969 (Safety
Requirements for Sawmills).
Institute P1.1-1969 (Safety
Requirements for Pulp Paper and
Paper board Mills).
5. Other ANSI, State and/or Federal
Codes and Regulations which may
apply in your operation.
SAFETY RULES WHICH APPLY TO
THE OPERATION OF ALL CARBIDE
TIPPED CUTTING TOOLS
1. Always inspect the cutting tool completely before mounting. Never attempt
to operate a tool which has chipped or
bent teeth or cutting edges or teeth that
are not sharp. You must be familiar with
normal wear conditions for the type of
tooling to be used. The tool must be
completely clean to allow proper visual
inspection.
4
2. Do not attempt to operate cutting
tools or machinery with which you are
not familiar or have not received operational training—get assistance from
your supervisor, his designated representative, or a trainer who is familiar
and properly trained and experienced
on the machine to insure your safety.
Become completely familiar with all of
the machinery manufacturer's written
instructions, guides and manuals
before operating machine. You must
use and be familiar with all controls
safety devices and emergency stop
mechanisms to operate a machine
safely.
3. Never operate a cutting tool that is
not properly aligned to the direction of
feed. Do not allow sideward twisting or
other than forward pressure on the
cutting tool in feeding material into a
cut.
4.Make sure the tool is mounted to
rotate in the proper direction before
cutting any material. The tool must
rotate against, rather than with the
direction of feed on all hand feed
machines. Do not climb on hand feed
machines.
5. Do not cut materials of a type
2
hardness1 or density other than that
which the cutting tool was designed to
cut. Never attempt to cut materials with
a tool unless you have personally
checked with your supervisor to make
sure the cutting tool was designed for
the specific type of material you wish to
cut and for the depth of cut desired.
This is particularly important when
attempting to cut "stacked" material i.e.
cutting more than one piece at a time.
6. Never force-feed materials into a
cutting tool such that it causes the tool
or machine motor to slow down below
operating speeds. A safe and proper
cutting operation will not require much
force in feeding material. If material
begins to "ride up" on the cutting tool or
requires undue pressure to feed the
material into the tool or if undue vibration is experienced do not continue the
cut—turn off all power and correct the
condition.
7. Keep body and clothing well clear of
all cutting tools and other moving parts
while the machine is in operation. Use
work holding fixtures and mechanical
feed devices in all possible cases.
When cutting material of such size
shape or type that it necessitates close
approximation to the cutter and
mechanical feed
1. Hardness is the resistance of a
material-to being cut or the strength
of a material to resist tearing or
breaking.
2. Density is the compactness of a
material compared to its volume.
mechanisms cannot be used, use a
wood “push stick” to feed the material
so that no part of your body or clothing
comes close to the cutting tool .
8. Never attempt to clean a cutting tool
or clear pieces of material from the
cutting area while machine power is
"on" or when cutting tools, material or
any part of the machine is moving.
Allow cutter rotation to stop by itself, or
by use of a brake if supplied on the
machine. Never attempt to stop or slow
a rotating cutting tool by applying a
hand-held or any other object to the
cutter, arbor, spindle or drive as a
brake.
9. Do not place your body in the
rotational path of a cutting tool unless
absolutely necessary and then only if
there is a complete and adequate
barrier between you and the cutting
tool. Remember that carbide tips are
very hard, and therefore brittle. The tips
can break away under incorrect side
thrust or twisting forces or if foreign
material is allowed to contact the tips.
An operator can reduce the danger of
being hurt by a "kickback" of the
material if he always stands beside the
material he is feeding into the machine
rather than in back of it.
manufacturerʼs specifications. Set the
dial indicator to bear on the fixed collar
of the arbor and turn the arbor (Fig 2)
The collar should run true within the
machine manufacturer s specifications.
3. WITH ALL POWER OFF AND
LOCKED OUT, align the saw blade
with the direction of feed. A method of
checking alignment is to mount a flat
ground plate of 10 or l2 inches diameter by 1/4 inch thick on the saw arbor in
the same manner as a saw blade (see
Fig. 3). Set up a dial indicator
10. Never leave machines unattended
while cutting tools are still rotating or
any part of the machine or material is
moving.
11. Never operate a machine without
using all of the hoods, guards, holddowns and safety devices for the
machine being operated.
12. Machines must be maintained to
the manufacturer's standards and
current safety standards.
13. Always wear safety glasses or face
shield to completely protect your eyes
when operating cutting tools.
CIRCULAR SAW BLADES AND SAW
MACHINE TOOLS MOUNTING
INSTRUCTIONS
1. TURN OFF AND LOCK OUT ALL
MACHINE POWER. Clean the saw
arbor, saw collars, sleeve and arbor
nut. Remove nicks and burrs by very
lightly honing any nicked or burred
area. (Do not use coarse tiles or
abrasives) .
2. WITH ALL MACHINE POWER OFF
AND LOCKED OUT pull and push on
the machine arbor sideways in and out
by hand (without rotating the arbor).
There should be no feeling of movement. Next rotate the arbor by hand. If
the bearings are in proper condition the
arbor should turn freely with no sticking
or rubbing. To check the arbor set up a
dial indicator as shown in Fig.1. The
arbor should run true within the motor
so it can be moved by hand along the
guide rail or feed mechanism. Position
this dial indicator so it can traverse
across the plate either above or below
the mounting collars. Set the dial indicator to zero at the leading edge of the
plate (Position A. Fig. 3) and move it
across the plate to the trailing edge
(Position B Fig. 3)
Reproduced with
permission from WMMA.
Any error in the plate flatness can be
eliminated by rotating the plate by hand
so that point A is moved to point B
when reading the indicator. Any deviation in angularity between the saw
blade and the direction of feed should
be maintained within the machine manufacturerʼs recommendations. On double cut-off and panel trim machines any
slight angularity in alignment should be
controlled so that the trailing edge of
the saw blades do not re-cut the
material.
AND LOCKED OUT, inspect the saw
blade before mounting The bore (center
hole) must be the correct size and fit
snugly. Do not force a saw or other type
of tool on an arbor. Do not tighten
mounting screws unequally or use
incorrectly fitted keys. Incorrect mounting of saws or other tools can cause
tool breakage and create dangerous
operating conditions. Never mount a
saw blade with a damaged (deeply
scored or out of round) bore or arbor.
Inspect the teeth carefully. Do not
mount blades with damaged bodies dull
or damaged (bent or chipped) teeth.
Never use anything other than accurate
metal shims or spacers if saw blades
have to be positioned on the arbor.
Never use shims to “wobble” a saw
blade3. Be sure that all saw collars used
match exactly in diameter. Closely
check to see that the arbor nut threads
are not worn and the wrench surfaces
of the arbor nut are not rounded off.
AND LOCKED OUT, mount the saw
blade on the arbor making sure that the
saw blade is turning in the correct
rotation and that the arbor nut tightens
in a direction opposite to the blade
rotation (See Fig 4A & 4B) Unless the
machine is specifically designed for
such cutting, never mount saw machine
tools to "climb cut" (teeth cutting in the
same direction of feed) on manually fed
machines.. Never use saw blades on
operations for which they were not
designed; for example, do not use rip
design blades to cut across the grain,
etc.
CIRCULAR SAW BLADES AND SAW
MACHINE TOOLS START-UP
PROCEDURES
MACHINE POWER. Never assume
previously set machine or tool conditions to be correct. Be sure that
3. Mounting a saw blade to "wobble"
means to shim the blade body
unequally on one side, throwing the
saw out of alignment with the arbor.
This causes the saw to make a wider
cut and dangerously increases
pressures on the tool.
the tool is correctly mounted, properly
locked on the arbor (See Fig 4A & 4B),
turns freely (no foreign objects in tool
rotation path) and is properly positioned
for the cutting operation required(See
Fig 3). Check to see that the cutting tool
is not dull or damaged. Check to see
that the body of the saw blade is not
cracked4. Take special precaution to
check "stacked cutters" to be sure that
all bolts, pins and threaded parts are
not worn or damaged, and are properly
mounted. Be sure that hubs on all "split"
circular tools are properly fitted and
pinned and that the locking collars are
in place and fit properly. Do not use
locking collars that are not matched to
the "split tool ". Split collars on split
tools ar not recommended.
AND LOCKED OUT insure that you are
not attempting to operate tools that do
not conform to the machine
manufacturer's machine load
specifications in either size or weight, or
that do not mount according to the
machine design limitations. Operate
saw machine tools only on the type of
materials, cutting loads and operation
applications for which the tools were
designed. (If you don't know this information, ask your supervisor) Do not
operate saw blades or saw machine
tools in excess of the machine or tool
manufacturerʼs specifications, or current
applicable OSHA standards, or in
excess of 18,000 sfm (surface feet per
minute) 5 (See Charts A and B following)
AND LOCKED OUT position the cutting
tool, material guides and material holddowns so that the material to be cut is
fully supported. This will insure there
will be minimal material vibration. Next,
follow the machine manufacturer's
instructions to mount all guards over the
tools such that the guards are close to,
but properly clear, the material being
cut. Mount and activate all of the
machine safety devices such as
Anti-kickback mechanisms, spreaders,
dust hoods and safety switches. Make
sure all personnel and all loose or
foreign objects are clear of the machine
and cutting tools.
4. TURN ON MACHINE POWER, start
the tool rotation slowly before feeding
material. This is done by “jogging” (that
is, pressing the start button and
immediately after that pressing the stop
button ). At a safe distance, observe the
operating condition of the tools (by sight
and sound) as they rotate slowly. Next,
TURN ALL MACHINE POWER OFF
AND LOCKED OUT, wait until all
cutting tools stop rotating by themselves
(do not attempt to stop their rotation
yourself unless a brake is specifically
provided for that purpose on the
machine), and make any necessary
corrections. Go through all steps noted
in paragraph 3, just above, before you
TURN THE MACHINE POWER ON.
Press the start button and allow the
machine to operate at full speed
4. "All cracked saws shall be removed
from service," Department of Labor
OSHA Standards, Federal Register
29 CFR Part 1910 213(S) (7)
5, The term "surface feet per minute"
refers to the peripheral or rim speed
of a cutting tool. See "Operating
Speeds for Carbide Tipped Rotary
Cutting Tools" below.
for at least one minute before feeding
material.
OPERATING SPEEDS FOR CARBIDE
TIPPED CIRCULAR SAW BLADES
Carbide tipped circular saw blades of
the types commonly used in the
machining of materials typical of the
toughness and density range of most
wood species composition boards,
medium hard plastics, and the softer
non-ferrous metals must never be
operated in excess of the machinery or
tool manufacturer's recommendations
or current applicable OSHA standards,
or in excess of 18,000 sfm (surface feet
per minute) whichever is lowest.
Surface feet per minute (sfm) refers to
the peripheral or rim speed of a cutting
tool that is, the speed at which the outer
cutting teeth are rotating when the tool
is at full speed. This speed increases as
the tool diameter and/or motor arbor or
spindle rpm increase. The maximum
speed of 18,000sfm is allowable only
when the machinery being used is in
excellent operating condition and is
excellently maintained. When using
older or worn machinery, or when
cutting materials of an unusual
6
7
toughness or density the surface feet
per minute or material feed rate or both,
should be reduced to speeds where,
the tool cuts easily and freely without
excessive vibration or high tooth impact
shock. Most woods, plastics,and the
medium-hard non ferrous metals will cut
better with longer tool life at surface feet
per minute ranging from 8,000 sfm to
6 Toughness is the resistance of a
material to being cut or the strength
breaking.
7 Density is the compactness of a
Chart A
16,000 sfm, depending on the hardness
and machining characteristics of the
material being cut. As the rim speed
(surface feet per minute) of a circular
saw blade is decreased, feed rates
must be decreased accordingly to
prevent the forcing of material into the
cutting tool and overloading of the
cutting teeth.
The method of determining the surface
feet per minute (sfm) of rotary cutting
tool is as follows:
Remember that changing to a larger
diameter cutting tool at the same
machine spindle or arbor speed
increases the surface feet per minute
rim speed of the tool. Never make
assumptions as to any machine motor
rpm since machines and individual
motors can be modified. WITHOUT
ANY CUTTING TOOLS MOUNTED ON
THE MACHINE check the rpm of each
motor using an rpm tachometer. Once
the cutting tool diameter and motor rpm
are known you can check Chart A,
(following) to see if a saw blade will be
operating within the 18,000 surface feet
per minute maximum rim speed
specified. For diameters not covered by
Chart A use the sfm (surface feet per
minute) formula above. For the circular
sawing of magnesium, copper lead,
brass or bronze, note the LOWER
surface speed limitations on Chart B.
For harder or more difficult to cut
materials consult the tool manufacturer.
Chart B
5
TECHNICAL INFORMATION
CARBIDE TIP
SHOULDER
HOOK OR RAKE
ANGLE
GAUGE
ARBOR HOLE
DIAMETER
KEYWAY
PLATE
GULLET
PIN HOLE
EXPANSION SLOT
KERF
CARBIDE TIP: Extremely hard and brittle man made material which actually comes in contact with material being cut.
Cemented carbide generally is composed of tungsten carbide powder and cobalt which acts as a bonding agent.
PLATE: Name given to circular body of saw in which teeth are machined in and carbide tips are inserted usually
using silver solder as a bonding agent.
SHOULDER: Portion of tooth directly behind tip in which tungsten carbide is brazed giving strength and support
during cutting operation.
HOOK OR RAKE ANGLE: Angle formed when cutting tooth meets center line.
GULLET: Normally circular shape at bottom of a carbide tip which allows for continuous flow of chips during cutting
operation.
ARBOR HOLE, BORE, or I.D.: Term used for center hole in saw which is used to mount blade on machine arbor.
Measured in inches or millimeters.
KEYWAY: Used on certain machines normally involving multiple blades on one arbor with automatic feeds to prevent
slippage of saws during cutting.
PIN HOLE: Same application as keyway except machine normally has only one saw blade.
EXPANSION SLOT: Allows for heat expansion of steel during cutting operation to avoid possible cracking in plate.
GAUGE: Measurement of thickness of steel plate (body).
DIAMETER (O.D.): Measurement of particular cutting tool from the point of one tooth to the point of another tooth
which lies directly opposite.
KERF: Measurement in inches or millimeters which tells the width of a particular cutting tool.
6
STANDARD TOP GRINDS
A
Alternate
Top Bevel
T
Triple Chip
S
Straight Top
TC45
Modified
Triple Chip
HI ATB
30° Alternate
Top Bevel
L
All Teeth
Beveled Left
R
All Teeth
Beveled Right
C
3 and 1
AR
Alternate
with Raker
DCO
RH
D
4 and 1
SK
Steel Cut
7
INDUSTRIAL BLADES
GLUE LINE RIP SAWS
Triple Chip
An extremely stable saw offering smoother cutting for all glue line applications on either straight or shadow line rip
saws.
Saw No.
GL1030
GL1230
* GL1236
GL1436
** GL1436D
GL1636
** GL1636D
Diameter
10”
12”
12”
14”
14”
16”
16”
*For Mereen-Johnson
**For Diehl
Teeth
30
30
36
36
36
36
36
Bore
5/8”
1”
3-1/8”
1”
Grind
TCG
TCG
TCG
TCG
TCG
TCG
TCG
2”with9/16”
phon5”b/c
1”
2”with9/16”
phon5”b/c
Hook
20°
20°
20°
20°
20°
20°
20°
HEAVY DUTY RIP SAWS
Plate
Thickness
.095
.110
.118
.120
.120
.120
.120
Kerf
.145
.160
.160
.170
.170
.170
.170
Straight Top
A saw especially developed for fast cutting on both hand and power feed ripping operations. This is
accomplished by extremely large gullets, heavier plates and use of the proper clearances designed for this type of
heavy duty cutting in both hard or soft woods.
Saw No.
HD824
HD924
HD1024
HD1024A
HD30024
HD1224
HD1424
HD1636
HD1840
Diameter
8”
9”
10”
10”
300mm
12”
14”
16”
18”
Teeth
24
24
24
24
24
24
24
36
40
Bore
5/8”
5/8”
5/8”
5/8”
70mm w/2 keys
20mm.w x 10mm.d
24
24
36
40
Grind
STR
STR
STR
ATB
STR
STR
STR
STR
STR
ASTRA WOOD
Plate
Hook Thickness
.085
20°
.085
20°
.095
20°
.095
20°
2.2mm
20°
.110
20°
.120
20°
.120
20°
.134
20°
Kerf
.135
.135
.145
.145
3.2mm
.160
.170
.170
.170
Alternate Top Bevel
Everlast offers an alternative to the Forrest Woodworker IITM*Blade. Exceptional cut on rip and crosscut.
Rated: Excellent & Very good in Fine Woodworking Magazine.**
Saw No.
** AGP1040
AGP1060
Diameter
10”
10”
Teeth
40
60
Bore
5/8”
5/8”
Grind
ATB
ATB
Hook
15°
0°
Plate
Thickness
.085
.080
**Article: “10-in. Combination Table Saw Blades”
*Trademark Forrest Mfg. Co.
8
Kerf
.115
.110
Alternate with Raker
An excellent all around saw ideally suited for the small woodworking or cabinet shops where one saw is used for
all different types of cutting. It can be used for ripping or cross cutting in solid woods, particle board, plywood or
laminated panels.
Saw No.
CBS940
CBS1050
CBS1260
CBS1470
CBS1680
Diameter
9”
10”
12”
14”
16”
Teeth
40
50
60
70
80
Bore
5/8”
5/8”
1”
1”
1”
Grind
AR
AR
AR
AR
AR
Hook
15°
15°
15°
15°
15°
Plate
Thickness
.085
.085
.110
.110
.120
Kerf
..125
.125
.155
.155
.165
GENERAL PURPOSE CUT-OFF SAWS
INDUSTRIAL BLADES
COMBINATION SAWS
Alternate Top Bevel
Designed for all around general purpose cutting in solid woods, plywood, masonite, chip core, and laminated
formica (single sided).
Saw No.
GP840A
GP940A
GP1040A
GP1240A
GP1440A
GP1640A
Diameter
8”
9”
10”
12”
14”
16”
Teeth
40
40
40
40
40
40
Bore
5/8”
5/8”
5/8”
1”
1”
1”
Grind
ATB
ATB
ATB
ATB
ATB
ATB
Hook
15°
15°
15°
15°
15°
15°
Plate
Thickness
.085
.085
.085
.095
.120
.120
Kerf
.125
.125
.125
.135
.165
.165
GENERAL PURPOSE CUT-OFF SAWS
Triple Chip
Designed for all around general purpose cutting in solid woods, plywood, masonite, chip core, and laminated
formica (single sided). Please note triple chip grind recommended for cutting all types of abrasive materials,
such as chip board or high pressure laminates.
Saw No.
GP840T
GP940T
GP1040T
GP1240T
GP1440T
GP1640T
Diameter
8”
9”
10”
12”
14”
16”
Teeth
40
40
40
40
40
40
Bore
5/8”
5/8”
5/8”
1”
1”
1”
Grind
TCG
TCG
TCG
TCG
TCG
TCG
Hook
15°
15°
15°
15°
15°
15°
Plate
Thickness
.085
.085
.085
.095
.120
.120
Kerf
.125
.125
.125
.135
.165
.165
9
INDUSTRIAL BLADES
STANDARD PURPOSE CUT-OFF SAWS
Alternate Top Bevel
For fine finishing cuts in plywood, veneered panels, masonite coated or uncoated, crosscutting in hard or soft
woods. Ideal for table saws.
Saw No.
SP71456A
SP860A
SP960A
LSP1060A
† SP30060A
SP1260A
SP1460A
SP1660A
SP1860A
Diameter
7-1/4”
8”
9”
10”
300mm
12”
14”
16”
18”
† MICRO-5 extra hard tips.
Teeth
56
60
60
60
60
60
60
60
60
Bore
5/8”
5/8”
5/8”
5/8”
30mm
1”
1”
1”
1”
Grind
ATB
ATB
ATB
ATB
ATB
ATB
ATB
ATB
ATB
Hook
10°
10°
10°
10°
10°
10°
10°
10°
10°
STANDARD PURPOSE CUT-OFF SAWS
Plate
Thickness
.072
.085
.085
.085
2.4mm
.095
.109
.109
.134
Kerf
.102
.125
.125
.125
3.4mm
.135
.155
.155
.180
Triple Chip
For fine finishing cuts in plywood, veneered panel, masonite coated or uncoated, crosscutting in hard or soft woods.
Ideal for table saws. Please note triple chip grind recommended for cutting all types of abrasive materials such as
chipboard or high pressure laminates.
Saw No.
SP71456T
SP860T
*† SP22064T
SP960T
LSP1060T
† SP30060T
SP1260T
SP1460T
SP1660T
SP1860T
Diameter
7-1/4”
8”
220mm
9”
10”
300mm
12”
14”
16”
18”
Teeth
56
60
64
60
60
60
60
60
60
60
* 2 ph 7mm dia. on 42mm B/C
† MICRO-5 extra hard tips.
Bore
5/8”
5/8”
30mm
5/8”
5/8”
30mm
1”
1”
1”
1”
Grind
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
SPECIAL PURPOSE CUT-OFF SAWS
Hook
10°
10°
5°
10°
10°
10°
10°
10°
10°
10°
Plate
Thickness
.072
.085
2.2mm
.085
.085
2.4mm
.095
.109
.109
.134
Kerf
.102
.125
3.2mm
.125
.125
3.4mm
.135
.155
.155
.180
Alternate Top Bevel
For the smoothest possible finish in plywood, veneer, laminated panels, coated hardboard, for crosscutting of
both hard and soft woods up to 3/4 inch thick.
Blades for Whirlwind Machine
available upon request
10
Saw No.
SPE1080A
SPE1280A
SPE1210A
SPE1480A
SPE1410A
SPE1680A
SPE1610A
SPE1620A
SPE1880A
SPE1810A
SPE1820A
Diameter
10”
12”
12”
14”
14”
16”
16”
16”
18”
18”
18”
Teeth
80
80
100
80
100
80
100
120
80
100
120
Bore
5/8”
1”
1”
1”
1”
1”
1”
1”
1”
1”
1”
Grind
ATB
ATB
ATB
ATB
ATB
ATB
ATB
ATB
ATB
ATB
ATB
Hook
5°
5°
5°
10°
5°
10°
5°
5°
10°
10°
10°
Plate
Thickness
.085
.095
.095
.109
.109
.109
.120
.120
.134
.134
.134
Kerf
.125
.135
.135
.150
.150
.150
.160
.160
.175
.175
.175
Triple Chip
For the smoothest possible finish in plywood, veneer, laminated panels, coated hardboard, for crosscutting of
both hard and soft woods up to 3/4 inch thick. Please note triple chip grind recommended for cutting all types of
abrasive materials such as chipboard or high pressure laminates.
Saw No.
SPE1080T
SPE1280T
SPE1210T
SPE1480T
SPE1410T
SPE1680T
SPE1610T
SPE1620T
SPE1880T
SPE1810T
SPE1820T
Diameter
10”
12”
12”
14”
14”
16”
16”
16”
18”
18”
18”
Teeth
80
80
100
80
100
80
100
120
80
100
120
Bore
5/8”
1”
1”
1”
1”
1”
1”
1”
1”
1”
1”
Grind
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
Hook
5°
5°
5°
10°
5°
10°
5°
5°
10°
10°
10°
Plate
Thickness
.085
.095
.095
.109
.109
.109
.120
.120
.134
.134
.134
Kerf
.125
.135
.135
.150
.150
.150
.160
.160
.175
.175
.175
DOUBLE CUT-OFF & TRIM SAWS
INDUSTRIAL BLADES
SPECIAL PURPOSE CUT-OFF SAWS
4 & 1 Grind
Extra plate thickness gives these saws extreme stability when used on Double End or Panel Sizing machines,
resulting in a splinter free finish on either sizing or angular cuts.
Saw No.
Diameter
DCO1280LH
12”
DCO1280RH
12”
DCO1410LH
14”
DCO1410RH
14”
DCO1610LH
16”
DCO1610RH
16”
Teeth
80
80
100
100
100
100
Bore
1”
1”
1”
1”
1”
1”
Grind
LH
RH
LH
RH
LH
RH
Hook
10°
10°
10°
10°
10°
10°
Plate
Thickness
.120
.120
.134
.134
.134
.134
Kerf
.165
.165
.180
.180
.180
.180
PLEX-CUT SAWS
TC 45
Ideally suited for cutting plastics such as acrylic, plexiglass, lucite, ABS, lexan, and PVC pipe where melting is a
problem. Good for material thickness up to 3/8 inch.
Saw No.
PC860
PC1080
PC1280
Diameter
8”
10”
12”
Teeth
60
80
80
Bore
5/8”
5/8”
1”
Grind
TC45
TC45
TC45
Hook
5°
5°
5°
Plate
Thickness
.072
.072
.085
Kerf
.106
.106
.119
11
INDUSTRIAL BLADES
THIN RIM SAWS
Alternate Top Bevel or Triple Chip
The perfect saw to use where there is a need for a minimum of stock removal per cut, as in the cutting of plastic or
veneer strips for edge banding. Maximum depth of cut on Thin Rim blade is 1-3/4 inches.
Saw No. Diameter
TR860A
8”
TR860T
8”
TR1080A
10”
TR1080T
10”
TR1280A
12”
TR1280T
12”
TR1210A
12”
TR1210T
12”
Teeth
60
60
80
80
80
80
100
100
Bore
5/8”
5/8”
5/8”
5/8”
1”
1”
1”
1”
Grind
ATB
TCG
ATB
TCG
ATB
TCG
ATB
TCG
Hook
10°
10°
5°
5°
5°
5°
5°
5°
THIN KERF SAWS
Plate
Thickness
.086
.086
.086
.086
.095
.095
.095
.095
Thin Rim
Plate
Thickness
.056
.056
.056
.056
.062
.062
.062
.062
Kerf
.086
.086
.086
.086
.092
.092
.092
.092
Alternate Top Bevel
Thin kerf blades create less power drain on machine and allow for minimum of stock waste.
Saw No.
TK860A
TK1024A
TK1060A
TK1080A
TK1280A
Diameter
8”
10”
10”
10”
12”
Teeth
60
24
60
80
80
Bore
5/8”
5/8”
5/8”
5/8”
1”
Grind
ATB
ATB
ATB
ATB
ATB
Hook
5°
15°
10°
5°
5°
THIN KERF SAWS
Plate
Thickness
.072
.072
.072
.072
.085
Kerf
.102
.102
.102
.102
.115
Triple Chip
Thin kerf blades create less power drain on machine and allow for minimum of stock waste. Please note triple chip
grind recommended for cutting all types of abrasive materials.
Saw No.
TK860T
TK1060T
TK1080T
TK1280T
12
Diameter
8”
10”
10”
12”
Teeth
60
60
80
80
Bore
5/8”
5/8”
5/8”
1”
Grind
TCG
TCG
TCG
TCG
Hook
5°
10°
5°
5°
Plate
Thickness
.072
.072
.072
.085
Kerf
.102
.102
.102
.115
Alternate Top Bevel
An excellent blade for use on all types of radial saws. Due to negative tooth design, this saw offers a minimum of
grabbing which is the main problem on most overarm machines.
Saw No.
RO1024
RO1230
RO12301
RO1260
RO12601
RO1440
RO1640
RO1672
Diameter
10”
12”
12”
12”
12”
14”
16”
16”
MITRE SAWS
Teeth
24
30
30
60
60
40
40
72
Bore
5/8”
5/8”
1”
5/8”
1”
1”
1”
1”
Grind
ATB
ATB
ATB
ATB
ATB
ATB
ATB
ATB
Hook
-2°
-2°
-2°
-2°
-2°
-2°
-2°
-2°
Plate
Thickness
.095
.095
.095
.095
.095
.120
.120
.110
Kerf
.135
.135
.135
.135
.135
.165
.165
.155
INDUSTRIAL BLADES
RADIAL OVERARM SAWS
Especially designed for cutting wood mouldings on all types of mitre machines and Rockwell type mitre box
saws. Negative tooth design provides the least possible grabbing of material.
*
*
*
*
Saw No.
MT1060
MT1080
MT1080M
MT1260D
MT1280
MT1280D
MT1210
MT121058
MT1490
MT141058
MT1410
MT1510
MT1610
Diameter
10”
10”
10”
12”
12”
12”
12”
12”
14”
14”
14”
15”
16”
Teeth
60
80
80
60
80
80
100
100
90
100
100
100
100
*Thin kerf for Makita, Ryobi,
Craftsman, Dewalt & Hitachi
Bore
5/8”
5/8”
5/8”
1”
1”
1”
1”
5/8”
1”
5/8”
1”
1”
1”
Grind
AR
AR
AR
ATB
AR
AR
AR
AR
AR
AR
AR
AR
AR
Hook
-2°
-5°
0°
0°
-2°
0°
-5°
-5°
-2°
-2°
-2°
-2°
-2°
Plate
Thickness
.080
.085
.072
.080
.095
.080
.098
.098
.120
.118
.118
.085
.120
Kerf
.110
.115
.102
.110
.125
.110
.128
.128
.150
.150
.150
.115
.150
ASTRA SERIES MITRE SAWS (Wood and Non-Ferrous)
For the smoothest cutting of wood or aluminum mouldings. Extra stiff plates and special clearances provide
extremely accurate cuts on double mitre machines such as Pistorius, Sampson, CTD, etc. Extra hard MICRO -5
tips used.
Saw No.
Diameter Teeth
ASMT128058
12”
80
ASNF128058
12”
80
Bore
5/8”
5/8”
Hook
-3°
-3°
Grind
AR
TCG
Plate
Thickness
.095
.095
Kerf
.115
.115
Application
Wood
Non-ferrous
(Aluminum)
13
INDUSTRIAL BLADES
DOUBLE FACE LAMINATE SAWS
30° ATB
Smoothest cutting saw for double sided materials such as Melamine, Kortron & Veneer. Can be used on radial
or table saws.
Saw No.
DFL86030
DFL108030
DFL121030
DFL141030
DFL162030
Diameter
8”
10”
12”
14”
16”
Teeth
60
80
100
100
120
Bore
5/8”
5/8”
1”
1”
1”
Grind
30°ATB
30°ATB
30°ATB
30°ATB
30°ATB
Hook
-5°
-5°
-5°
-2°
-2°
Plate
Thickness
.085
.085
.095
.118
.120
Kerf
.115
.115
.125
.148
.150
NOTE: Not recommended for machines with power feeds or if material is being stacked.
MICRO-5 DOUBLE FACE LAMINATE SAWS
30° ATB
Smoothest cutting saw for double sided materials such as Melamine, Kortron & Veneer. Can be used on radial
or table saws. Extra hard MICRO-5 tips last 3-5 times longer than normal carbide.
Saw No.
Diameter
DFL2206430 220mm
DFL2508030 250mm
10”
DFL1080305
DFL3001030 300mm
12”
DFL1210305
Teeth
64
80
80
100
100
Bore
30mm
30mm
5/8”
30mm
1”
Plate
Grind Hook Thickness
.085
30°ATB -5°
.085
30°ATB -5°
.085
30°ATB -5°
.085
30°ATB -5°
30°ATB -5°
.095
Kerf
.125
.115
.115
.115
.125
Pinholes
2/7/42
2/7/42;2/10/60
2/7/42;2/10/60
DOUBLE FACE LAMINATE SAWS
TC 45
The perfect saw for the best possible cutting of formica and Melamine laminated panels. These blades can
perform equally as well on both radial or table saws.
Saw No.
DFL860
DFL1080
DFL1210
DFL1410
DFL1620
Diameter
8”
10”
12”
14”
16”
Teeth
60
80
100
100
120
Bore
5/8”
5/8”
1”
1”
1”
Grind
TC45
TC45
TC45
TC45
TC45
Hook
-5°
-5°
-5°
-2°
-2°
Plate
Thickness
.085
.085
.095
.120
.120
14
Kerf
.115
.115
.125
.150
.150
A saw specifically recommended for the cutting of double sided veneered panels either with or against the grain.
Will also give splinter free cuts in plywood. Also for the cutting of veneer or hardwood strips for edge banding.
Saw No.
DFV860
DFV1080
DFV1210
DFV1410
DFV1620
Diameter
8”
10”
12”
14”
16”
Teeth
60
80
100
100
120
Bore
5/8”
5/8”
1”
1”
1”
Grind
AR
AR
AR
AR
AR
Hook
-5°
-5°
-5°
-2°
-2°
Plate
Thickness
.085
.085
.095
.120
.120
Kerf
.115
.115
.125
.150
.150
NON-FERROUS METAL CUTTING SAWS
Triple Chip
Designed for smooth, burr free cuts on all types of aluminum extrusions, thin wall tubing and thin gauge sheets
with a wall thickness of 1/16 inch to 1/8 inch. These blades work particularly well on double mitre or portable
mitre box machines. Please note that a lubricant should always be used during cutting and material should
always be firmly secured while being cut.
Saw No.
NF740
NF860
NF1060
NF1060TK
NF1072
NF1080
* NF1080M
NF1010
NF1260
NF12601
NF1280
* NF1280D
NF1210
NF121058
NF1490
NF1410
NF141058
* NF1510
NF1610
NF1810
NF2020
Diameter
7-1/4”
8”
10”
10”
10”
10”
10”
10”
12”
12”
12”
12”
12”
12”
14”
14”
14”
15”
16”
18”
20”
Teeth
40
60
60
60
72
80
80
100
60
60
80
80
100
100
90
100
100
100
100
100
120
Bore
UNIV.
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
1”
1”
1”
1”
5/8”
1”
1”
5/8”
1”
1”
1”
1”
Grind
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
*Thin kerf for Makita, Ryobi, Craftsman, Dewalt & Hitachi.
Hook
-2°
-2°
-2°
-2°
-2°
-5°
0°
-5°
-2°
-2°
-2°
0°
-5°
-5°
-2°
-2°
-2°
-2°
-2°
-2°
0°
Plate
Thickness
.080
.085
.085
.080
.095
.094
.072
.094
.095
.095
.095
.080
.098
.098
.120
.120
.118
.085
.120
.134
.134
Kerf
.110
.115
.115
.110
.108
.124
.102
.124
.125
.125
.125
.110
.128
.128
.150
.150
.150
.115
.150
.165
.170
INDUSTRIAL BLADES
DOUBLE FACE VENEER SAWS
Saw blades for vinyl window
moulding can be supplied
upon request
STEEL-KUT (FOR FERROUS METAL)
“Steel-Kut” advantages: Long life compared to grinding discs, can be resharpened many times, excellent cut
quality, no danger of sparks during cutting, cuts faster than grinding disc. “Steel-Kut” can be used for cutting the
following materials: Steel bars, rebars, angle iron, steel channel, flat steel, aluminum bars, flat stock. “Steel-Kut”
can be used on dry-cutting chop saw such as Jepson, provided the recommended RPM is not exceeded.
Saw No.
JEP1050
JEP1260
JEP1280
JEP1472
Diameter
10”
12”
12”
14”
Teeth
50
60
80
72
Bore
5/8”
1”
1”
1”
Hook
0°
0°
0°
0°
(Recommended R.P.M.:10"-1,750, 12"-1,500, 14"-1,300)
Plate
Thickness
.072
.072
.072
.072
Kerf
.088
.088
.088
.088
15
INDUSTRIAL BLADES
ASTRA SERIES PANEL SAWS
Metric Diameter MICRO-5 Tips
For use on various models of vertical and horizontal panel saw machines. MICRO-5 extra hard micro grain tips
used on all panel saw blades.
Saw No.
SP22064T
DFL2206430
DFL2508030
SP30060A
SP30060T
SPE30072T
SPE30010T
DFL3001030
TK35072T
TK35072T1
SPE35072T3
SPE35072T80
SPE38072T60
SPE38072T75
SPE40072T30
SPE40072T75
ASTRA SERIES SCORING SAWS
Diameter
220mm
220mm
250mm
300mm
300mm
300mm
300mm
300mm
350mm
350mm
350mm
350mm
380mm
380mm
400mm
400mm
Teeth
64
64
80
60
60
72
100
100
72
72
72
72
72
72
72
72
Bore
30mm
30mm
30mm
30mm
30mm
30mm
30mm
30mm
30mm
1”
30mm
80mm
60mm
75mm
30mm
75mm
Grind
TCG
30°ATB
30°ATB
ATB
TCG
TCG
TCG
30°ATB
TCG
TCG
TCG
TCG
TCG
TCG
TCG
TCG
Hook
5°
-5°
-5°
10°
13°
10°
5°
-5°
10°
10°
13°
13°
13°
13°
13°
13°
Plate /Kerf
(mm)
2.2 / 3.2
2.2 / 3.2
2.2 / 2.9
2.4 / 3.4
3.0 / 4.4
2.2 / 3.2
2.4 / 3.4
2.2 / 3.0
2.5 / 3.5
2.5 / 3.5
3.0 / 4.4
3.0 / 4.4
3.4 / 4.8
3.0 / 4.4
3.0 / 4.4
3.0 / 4.4
Pinholes
2/7/42
2/7/42
2/7/42;2/10/60
2/7/42;2/10/60
2/7/42;2/10/60
2/7/42;2/10/60
2/10/60
2/10/60
2/7/110;2/14/110
Straight Top and Conical Sides
Used on both sliding carriage and beam type panel saws to score the bottom of panels, thus allowing large saw to
cut through without chipping material on bottom side.
Saw No.
S10020
S420
S43424
S12524
S524
S624
S1603655
S1752845
S1803645
S2003620
S2003645
S2003665
SPLIT SCORING SAWS
Diameter
100mm
4”
4-3/4”(120mm)
125mm
5” (125mm)
6” (150mm)
160mm
175mm
180mm
200mm
200mm
200mm
Teeth
20
20
24
24
24
24
36
28
36
36
36
36
Bore
5/8”
5/8”
5/8”
45mm
5/8”
5/8”
55mm
45mm
45mm
20mm
45mm
65mm
Grind
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
STR (Conic.)
Hook
8°
8°
10°
10°
8°
8°
5°
8°
8°
8°
8°
8°
Pinholes
3/7/66
2/9/110
Straight Top
Used on sliding carriage panel saws to score the bottom of panels, thus allowing large saw to cut through without
chipping material on bottom side. Shims are provided to adjust kerf to match large blade.
Saw No.
SS10010
SS12012
SS12012-34
SS12012-20
SS12012-50
Diameter
100mm
120mm
120mm
120mm
120mm
Teeth
2 x 10
2 x 12
2 x 12
2 x 12
2 x 12
NOTE: 20mm and 3/4” bushings available
16
Bore
22mm
22mm
3/4”
20mm
50mm
Grind
STR
STR
STR
STR
STR
2.8
2.8
2.8
2.8
2.8
Kerf
- 3.6mm
- 3.6mm
- 3.6mm
- 3.6mm
- 3.6mm
Metric Diameter
Diameter
Teeth
Bore
Grind
Hook
Plate
Kerf
SPE38072T60
S2003645
380mm
200mm
72
36
60mm
45mm
13°
8°
3.4
3.4
4.8
4.7 / 5.7
SPE40072T30
S2003620
400mm
200mm
72
36
30mm
20mm
TCG
STR
(Conical)
13°
8°
3.0
3.0
4.4
4.3 / 5.3
* SPE35072T80
** S1603655
350mm
160mm
72
36
80mm
55mm
TCG
STR
(Conical)
13°
5°
3.0
3.0
4.4
4.3 / 5.3
Saw No.
FOR THE HOLZMA
FOR THE SCHELLING
FOR THE SCMI
*2 ph 14mm on 110mm B/C
**3 ph 7mm on 66mm B/C
TCG
STR
(Conical)
COUNTERTOP SAW
INDUSTRIAL BLADES
ASTRA SERIES PANEL SAW SETS
TC45
Designed to give highest quality, smoothest chip-free cuts on laminated post form countertops with backsplash.
Ideally suited for post form countertop machines such as Midwest Automation and Edgetech.
Saw No.
CT1620
Diameter
16”
Teeth
120
Bore
1”
Grind
TC45
Hook
-2°
Plate
Thickness
.118
Kerf
.150
ASTRA SERIES SOLID SURFACE SAWS
TC 45
For the smoothest cutting on solid surface materials such as Corian®, Avonite ®, Fountainhead ® and Gibraltar ®,
etc. Special clearances allow for smoothest cut on these materials. Gives a finish which requires virtually no
sanding or polishing. Seam quality cut.
Saw No.
DFLC71440
DFLC860
* DFLC22064
* DFLC25080
DFLC1060
DFLC1080
* DFLC30010
DFLC1210
Diameter
7-1/4”
8”
220mm
250mm
10”
10”
300mm
12”
* MICRO-5 extra hard tips.
Teeth
40
60
64
80
60
80
100
100
Bore
Univ.
5/8”
30mm
30mm
5/8”
5/8”
30mm
1”
Grind
TC45
TC45
TC45
TC45
TC45
TC45
TC45
TC45
Plate
Hook Thickness
-2°
.080
-2°
.086
-5°
.085
-5°
.085
-2°
.086
-5°
.086
-5°
.085
-5°
.095
Kerf
.104
.110
.115
.115
.110
.110
.115
.117
Pinholes
2/7/42
2/7/42;2/10/60
2/7/42;2/10/60
17
INDUSTRIAL DADO SETS
DADO SETS
Standard #3 Set
Offers the woodworking shop one tool which will cut various size grooves up to 13/16 inch maximum width of cut.
Can be used to cut either with or against grain. Fine Tooth Dado recommended for plywood, Melamine, or where
extra smooth cut is needed.
One set consists of: Two 1/8” outside blades
Two 1/8” chippers
One 1/4” chipper
One 1/16” chipper
Saw No.
DS6
DS8
DS801
DS10
DS101
DS12
Diameter
6”
8”
8”
10”
10”
12”
Teeth
18
24
24
24
24
24
Bore
5/8”
5/8”
1”
5/8”
1”
1”
Hook
15°
0°
0°
15°
15°
15°
Width of
Cut
1/4” to 13/16”
1/4” to 13/16”
1/4” to 13/16”
1/4” to 13/16”
1/4” to 13/16”
1/4” to 13/16”
Saw No.
DS840
DS8401
Diameter
8”
8”
Teeth
40
40
Bore
5/8”
1”
Hook
-5°
-5°
Width of
Cut
1/4” to 13/16”
1/4” to 13/16”
Saw No.
OS6L
OS6R
OS8L
OS8R
OS840L
OS840R
OS10L
OS10R
OS12L
OS12R
Diameter
6”
6”
8”
8”
8”
8”
10”
10”
12”
12”
Fine Tooth Dado Set
OUTSIDE DADO SAWS
DADO CHIPPERS
18
Saw No.
DC616
DC618
DC614
DC816
DC818
DC814
DC816N
DC818N
DC814N
DC1016
DC1018
DC1014
DC1216
DC1218
DC1214
Teeth
18
24
24
24
40
40
24
24
24
24
Diameter
6”
6”
6”
8”
8”
8”
8”
8”
8”
10”
10”
10”
12”
12”
12”
Bore
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
1”
1”
Bore
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
1”
1”
1”
Grind
Left
Right
Left
Right
Left
Right
Left
Right
Left
Right
Hook
15°
15°
15°
0°
0°
0°
-5°
-5°
-5°
15°
15°
15°
15°
15°
15°
Hook
15°
15°
0°
0°
-5°
-5°
15°
15°
15°
15°
Kerf
1/8”
1/8”
1/8”
1/8”
1/8”
1/8”
1/8”
1/8”
1/8”
1/8”
Kerf
1/16”
1/8”
1/4”
1/16”
1/18”
1/4”
1/16”
1/18”
1/4”
1/16”
1/8”
1/4”
1/16”
1/8”
1/4”
Straight Top
A single purpose tool to be used when a specific width of groove is desired for production runs. Will give good
finish cuts when run with grain of material.
Groover No.
G4184
G43164
G4144
G6188
G63168
G6148
G65168
G6388
G6128
G831612
G81412
G851612
G83812
G81424
G83824
G1031624
G101424
G1051624
G103824
Diameter
4”
4”
4”
Teeth
4
4
4
Bore
5/8”
5/8”
5/8”
Kerf
1/8”
3/16”
1/4”
8”
8”
8”
8”
12
12
12
12
5/8”
5/8”
5/8”
5/8”
3/16”
1/4”
5/16”
3/8”
10”
10”
10”
10”
24
24
24
24
6”
6”
6”
6”
6”
6”
8”
8”
8
8
8
8
8
8
24
24
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
EDGE BANDER SAWS
1/8”
3/16”
1/4”
5/16”
3/8”
1/2”
1/4”
3/8”
3/16”
1/4”
5/16”
3/8”
INDUSTRIAL BLADES
GROOVERS - SQUARE FACE & TOP
Also Available: Fine Tooth Groovers,
Shear Face, and Specialty Groovers.
Alternate Top Bevel or All Teeth Beveled to Left or Right
A specially designed saw for both single or two sided edge banding machines, for the end trimming of either
wood or plastic banding materials.
Saw No.
EB420
EB4200
EB4524
EB43424
EB524
EB5530
EB640
EB6400
Diameter
4”
4”
4-1/2”
4-3/4”
5”
5-1/2”
6”
6”
Teeth
20
20
24
24
24
30
40
40
Bore
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
5/8”
Hook
8°
0°
10°
10°
8°
6°
6°
0°
NOTE: When ordering Alternate Top Bevel add letter A after Saw No.
For Left Bevel add letter L after Saw No.
For Right Bevel add letter R after Saw No.
Plate
Thickness
.085
.085
.085
.085
.085
.085
.085
.085
Kerf
.125
.125
.125
.125
.125
.125
.125
.125
BISCUIT CUTTER BLADE
Replacement blade for most biscuit jointers such as Lamello, Virutex, etc.
Saw No.
LAM10012
Diameter
100mm
Teeth
12
Bore
22mm
Grind
ATB
Hook
15°
Plate
Thickness
.118
Alternate Top Bevel
Kerf
4mm
19
CUSTOM SAW QUOTATION FORM
CUSTOM SAW BLADE QUOTATION FORM
Please complete as much information as possible:
Date_______________
Customer Name________________________________________ Account #_______________
Address_____________________________ City__________________ State_____ Zip_______
Phone#__________________ Fax#____________________ Contact_____________________
Email___________________
Qty_________
Saw Diameter____________
Bore (Arbor)______________
Hook________
Number of Teeth_________ Grind___________
Plate___________
Keyway(s)____________________________________
Pinholes______________________________________
Countersunk Pinhole specs:
Kerf____________
Please specify the number of keyways and the width
and depth
Please specify the number of Pinholes, the diameter
and Bolt Circle or Center to Center specification.
If Countersunk, please specify side of
blade (face of teeth coming at you)
Right________Left_________Every Other_________All________
Application: (specify rip, crosscut, mitre, sizing, etc)__________________________________________________
_____________________________________________________________________________________________
Material type and thickness:_______________________________________________________
Machine type: (ex.-Table saw, Gang Rip, Straight Line Rip,Sliding Carriage, Vertical or Horizontal Panel Saw,
Mitre, Double Mitre, Radial, Swing, Pop-Up, Portable, Gas Operated, Air etc.)__________________________
______________________________________________________________________________
Position of saw blades (above or below material)__________________________________________
Feed (manual or power)____________if power - Feed rate in feet per minute ___________________
Saw moves across material____________Material moves across saws_____________________
Type of finish desired (average, good, excellent)__________________________________________
Addtional notes_________________________________________________________________
_____________________________________________________________________________
_____________________________________________________________________________
Please fax completed form to: (239) 596-9616
20
CARBIDE TIPPED ROUTER CUTTERS
CARBIDE TIPPED
ROUTER CUTTERS
SAFETY GUIDE
for the operation of
CARBIDE TIPPED ROUTER BITS
Read Completely Before Attempting To Operate Carbide Tipped Router Bits
This leaflet of safety and operating
instructions is not intended to be and is
not totally comprehensive; that is it
does not and cannot cover every possible safety problem which may arise in
using specialized and standard tooling
on varying machines and applications.
This leaflet is rather intended to generally describe many of the basic safety
and operating procedures which should
be followed and to describe the types of
safety considerations which should be
considered in operating cutting tools.
None of the statements or information
presented in this leaflet should be interpreted to imply any warranty or safety
protection.
The drawings do not depict any particular design, type, or size of tools equipment or machines. The drawings are
illustrative only and are not to be construed to establish any exact mode,
method or procedure.
All Federal and State laws and regulations having jurisdiction covering the
safety requirements of cutting tools at
the point of usage take precedence
over the statements and information
presented in this leaflet. Users of cutting tools must of course adhere to all
such regulations. As an aid to cutting
tools users a number of such regulations are listed below. The list does not
include all regulations that may apply.
1. The Federal Register dated June 27
1974 Dept.of Labor Office of Safety
and Health Administration (The
OSHA Act)
2. American National Standards In
institute. 01.1-1975 (safety Regulations for Woodworking Machinery)
institute 02.1-1969 (Safety
Requirements for Sawmills).
institute P1.1-1969 (Safety Requirements for Pulp Paper and Paper
board Mills).
S Other ANSI, State and/or Federal
Codes and Regulations which may
apply in your operation.
SAFETY RULES WHICH APPLY TO
THE OPERATION OF ALL CARBIDE
TIPPED CUTTING TOOLS
1. Always inspect the cutting tool completely before mounting. Never attempt
to operate a tool which has chipped or
bent teeth or cutting edges or teeth that
are not sharp. You must be familiar with
normal wear conditions for the type of
tooling to be used. The tool must be
completely clean to allow proper visual
inspection.
22
2. Do not attempt to operate cutting
tools or machinery with which you are
not familiar or have not received operational training—get assistance from
your supervisor his designated representative, or a trainer who is familiar
and properly trained and experienced
on the machine to insure your safety.
Become completely familiar with all of
the machinery manufacturerʼs written
instructions guides and manuals before
operating machine. You must use and
be familiar with all controls safety
devices and emergency stop mechanisms to operate a machine safely.
3. Never operate a cutting tool that is
not properly aligned to the direction of
feed. Do not allow sideward twisting or
other than forward pressure on the cutting tool in feeding material into a cut.
4.Make sure the tool is mounted to
rotate in the proper direction before cutting any material. The tool must rotate
against, rather than with the direction of
feed on all hand feed machines. Do not
climb on hand feed machines.
5. Do not cut materials of a type hard2
ness1 or density other than that which
the cutting tool was designed to cut.
Never attempt to cut materials with a
tool unless you have personally
checked with your supervisor to make
sure the cutting tool was designed for
the specific type of material you wish to
cut and for the depth of cut desired.
This is particularly important when
attempting to cut “stacked” material i.e.
cutting more than one piece at a time.
6. Never force-feed materials into a
cutting tool such that it causes the tool
or machine motor to slow down below
operating speeds. A safe and proper
cutting operation will not require much
force in feeding material. If material
begins to “ride up” on the cutting tool or
requires undue pressure to feed the
material into the tool or if undue vibration is experienced do not continue the
cut—turn off all power and correct the
condition.
7. Keep body and clothing well clear of
all cutting tools and other moving parts
while the machine is in operation. Use
work holding fixtures and mechanical
feed devices in all possible cases.
When cutting material of such size
shape or type that it necessitates close
approximation to the cutter and
mechanical feed.
1. Hardness is the resistance of a
material-to being cut or the strength
breaking.
2. Density is the compactness of a
mechanisms cannot be used, use a
wood “push stick” to feed the material
so that no part of your body or clothing
comes close to the cutting tool.
8. Never attempt to clean a cutting tool
or clean pieces of material from the cutting area while machine power is “on” or
when cutting tools, material or any part
of the machine is moving. Allow cutter
rotation to stop by itself, or by use of a
brake if supplied on the machine. Never
attempt to stop or slow a rotating cutting
tool by applying a hand-held or any
other object to the cutter, arbor, spindle
or drive as a brake.
9. Do not place your body in the
rotational path of a cutting tool unless
absolutely necessary and then only if
there is a complete and adequate
barrier between you and the cutting
tool. Remember that carbide tips are
very hard, and therefore brittle. The tips
can break away under incorrect side
thrust or twisting forces or if foreign
material is allowed to contact the tips.
An operator can reduce the danger of
being hurt by a “kickback” of the material if he always stands beside the material he is feeding into the machine
rather than in back of it.
10. Never leave machines unattended
while cutting tools are still rotating or
any part of the machine or material is
moving.
11. Never operate a machine without
using all of the hoods, guards, hold
downs and safety devices for the
machine being operated.
12. Machines must be maintained to the
manufacturerʼs standards and current
safety standards.
13. Always wear safety glasses or face
shield to completely protect your eyes
when operating cutting tools.
CARBIDE TIPPED & HIGH SPEED
STEEL ROUTER BIT & ROUTER
TOOL MOUNTING INSTRUCTIONS
MACHINE POWER. Remove the collet
chuck and collet (see the machine manufacturerʼs Instructions) and clean them.
Also clean the spindle and tool.
Remove all nicks and burrs by very
lightly honing (do not use coarse files or
coarse abrasives). When removing
parts and tools from a machine, handle
them carefully. Never use hard metal
hammers to loosen machine parts or
tools, and never allow the teeth of cutting tools to touch steel even when they
are dull, for this will cause the cutting
edges to be damaged .
AND LOCKED OUT, push the machine
spindle up and down and to and from
by hand pressure (without rotating the
spindle) There should be no feeling of
movement. Next rotate the spindle by
hand. The spindle should turn freely
without sticking or rubbing if the bearings are in proper condition.
3.WITH ALL MACHINE POWER OFF
AND LOCKED OUT, check the condition of the collet chuck by mounting the
collet and collet chuck in the spindle
with a ground test bar positioned full
depth into the chuck. A 3 inch length of
drill rod will serve as a test bar. Set up
a dial indictor as shown in Fig. 1 and
check the runout of the test bar, turning
Fig. 1
the machine spindle by hand. Runout of
the test bar in excess of machinery
manufacturerʼs recommendation could
indicate a worn or damaged collet, or
worn spindle bearings or spindle
assembly. Make all corrections necessary before mounting the Cutting tool.
AND LOCKED OUT, remove the test
bar and mount the router bit or router
tool in the machine after inspecting the
tool. Do not mount any tool that is dull
or damaged and check shank of bit to
be sure it fits securely into collet. Be
sure the router bit or tool is positioned
completely into the collet to the full
depth of the shank and clamped only on
the smooth, straight surface of the
shank (see Fig. 2). Never clamp only a
portion of the shank to “extend” the cutting depth, or clamp on the body below
the shank.
Fig. 2
If there is a radius between the tool
shank and body, be sure to clamp
above the radius. Check the tool with
the dial indicator (as in Fig. 3). Tools
Fig. 3
dust hoods, guards and safety switches. Make sure all personnel and all
loose or foreign objects are clear of
the machine and the cutting tool.
Insure that the direction of feed of the
material to the cutting tool is proper.
(see Fig. 4)
Fig. 4
that have excessive runout (more than
+ .002) or that wobble, are unsafe at
the high spindle rotating speeds of
router machines, and must be corrected or replaced.
5. SPECIAL NOTE: Whenever a
router bit is removed from a machine,
inspect the shank for collet markings
(brown or black spots, or lines on the
shank). If markings are present, the
collet may be worn and should be
checked. Worn collets cause undue
vibration in the router bit, which can
work harden the tool causing it to
break.
TOOL START-UP PROCEDURE
MACHINE POWER. Never assume
previously set machine or tool conditions to he correct. Be sure that the
tool is correctly mounted, properly
positioned in the collet chuck and
clamped securely, turns freely (no foreign objects in tool rotation path) and
is properly positioned for the cutting
operation required. Check to see that
the cutting tool is not dull.
2. Insure that you are not attempting to
operate tools that do not conform to
the machine manufacturer's machine
load specifications in either size or
weight, or that do not mount according
to the machine design limitations.
Operate router bits and router tools
only on the type of materials, cutting
loads and operation applications for
which the tools and machine were
designed.
3. WITH ALL MACHINE POWER
OFF AND LOCKED OUT, position the
cutting tool, material guide rails and
material hold-downs so that the material to be cut is fully supported.
This will insure there will be minimal
material vibration. Next, follow the
machine manufacturer's instructions to
mount all guards over the tools such
that the guards are close to, but properly clear, the material being cut.
Mount and activate all safety devices
such us anti-kickback mechanisms,
4. TURN ON MACHINE POWER.
Start the tool rotating slowly before
feeding material. This is done by “jogging” (that is, pressing the start button
and immediately after that pressing the
stop button). At a safe distance,
observe the operating condition of the
tools (by sight and sound) as they
rotate slowly. Next, TURN OFF AND
LOCK OUT ALL MACHINE POWER,
wait until the cutting tool stops rotating
(do not attempt to stop the tool rotation
yourself unless a brake is specifically
provided for that purpose on the
machine), and make any necessary
corrections. Any router tool that is dull
or appears to “wobble” when rotating
is dangerous and the situation must be
corrected before attempting to cut any
material (see Router Tool Mounting
Instructions). Adjust the machine feed
guide and machine feed controls (if
automatic) according to machine
manufacturerʼs instructions. Go
through all steps noted in paragraph 3,
just above, before you TURN THE
MACHINE POWER ON. Press the
start button and allow the machine to
operate at full idle speed for at least
one minute before feeding material.
Before beginning production cutting,
make a short, shallow cut on a test
piece of the material to be cut to
observe cutting action on the tool
before proceeding to full cut depth
operation. Always start into the cut
slowly and use a smooth steady feed
to allow the tool to cut freely. It will not
take much effort to move material
properly through the cut if the routing
operation is set up correctly and
safely.
TOOL SPECIAL OPERATING PRECAUTIONS READ CAREFULLY
1. Never run router tools in machines
other than router machines. Do not
operate router tools in drill presses,
portable drills, etc.
2. Operate only router tools and router
bits that have the shortest possible
cutting edge length in order to maintain the cutting load as close as possible to the collet chuck support (never
use a longer cutting edge length to
“reach” the material). Material should
just clear the collet chuck as it moves
through the cut. Do not operate router
tools with only part of the tool shank
clamped in the collet to make the tool
“reach” deep cuts. The entire shank
must be clamped in the collet. Do not
clamp the tool on any radius between
the shank and body.
3. Router tools are often limited in
capacity of the chip pocket (area in
front of the cutting edge which carries
away the chip) because of the small
diameter of the tool. Over-feeding
(forcing material into the cut) can
cause compression of chips that can
result in bending or breaking of the
router bit or tool. Small diameter router
bits are limited in the amount of clearance that can be designed and manufactured into the tool due to the need
to maximize strength in the tool body.
Fast feeding of router bits can result in
overloading the clearance space
between the material cut and the steel
behind the cutting edge. When such
an operating condition occurs, dangerous high overload pressures rapidly
develop that can cause bending and
breakage of the tool. Donʼt force-feed
material into these tools.
4. If the cutting tool and the material
tend to push away from one another or
if they bounce or vibrate against each
other, stop the machine immediately.
Do not use force to continue the cut.
Do not operate the machine until the
machine or tool condition is corrected.
5. Never feed material into a router
tool when the material is not supported
by the machine table and table guide
rails, or that requires the hands or
clothing to be dangerously close to the
rotating parts of the machine. Keep
body and clothing well clear of the
cutting tool while in operation.
6. Always wear safety glasses to completely protect eyes when operating
routing tools.
E. Total router bit runout should not
exceed +.004.
F. Inspect the collet frequently. The
collet should be replaced when use
causes wear at point A or at point B
(see Fig. 5). Continued use of such a
worn collet can cause bit vibration and
set up stresses that result in bit
breakage.
Fig. 5
SPECIAL NOTES ON PORTABLE
ROUTERS
A. Follow the machine manufacturerʼs
recommendations on proper inspection
and operation of the portable router.
B. Insure that the unit is unplugged at
all times during inspection.
C. Make sure that the router motor is
clamped securely in the base at all
times.
D. Insure that the router bit shank is
always inserted a minimum of 5/8" up
into the collet.
Reproduced with
permission from WMMA.
23
ROUTER CUTTERS
TEMPLATE AND PLUNGE CUTTING ROUTER BITS
Tool
Number
*ERB-1A
*ERB-1C
*ERB-2A
*ERB-2C
*ERB-2
*ERB-3
ERB-4
ERB-6
ERB10
Cutting
Shank
Diameter Diameter
1/8”
1/4”
1/8”
1/4”
3/16”
1/4”
3/16”
1/4”
1/4”
1/4”
1/4”
1/4”
1/4”
1/4”
3/8”
1/4”
1/2”
1/4”
1/4” Shank
Carbide
Length
7/16”
7/16”
7/16”
7/16”
3/4”
1”
1”
1”
1”
Shank
Length
1-5/16”
1-5/16”
1-5/16”
1-1/4”
1-1/8”
1”
1-1/4”
1-1/4”
15/16”
*Not guaranteed due to extreme length or fragility.
Overall
Length
2”
2”
2”
2”
2”
2-3/16”
2-1/4”
2-1/4”
2-1/8”
No. of
Flutes
1
2
1
2
2
2
2
2
2
TEMPLATE AND PLUNGE CUTTING ROUTER BITS 3/8” & 1/2” Shank
Tool
Number
*ERB-2B
ERB-4B
ERB-7
ERB-8B
ERB-8C
ERB-11
ERB-12
ERB-12A
ERB-13
ERB-13A
*ERB-14
*ERB-14A
ERB-18
ERB-21
Shank
Cutting
Diameter Diameter
1/2”
1/4”
1/2”
5/16”
3/8”
3/8”
1/2”
3/8”
1/2”
3/8”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
1/2”
3/4”
1/2”
1”
Carbide
Length
3/4”
3/4”
1”
1”
1-1/4”
1”
1-1/4”
1-1/4”
1-1/2”
1-1/2”
2”
2”
1”
1-1/4”
Shank Overall No. of
Length Length Flutes
2
1-5/16”
2-1/4”
2
1-1/2”
2-1/2”
2
1-5/16”
2-1/2”
2
1-3/8”
2-5/8”
2
1-3/8”
2-7/8”
2
1-3/16”
2-1/2”
2
1-7/16” 2-15/16”
1
1-7/16” 2-15/16”
2
1-15/16” 3-1/8”
1
1-5/16”
3-1/8”
2
1-7/8”
4-1/4”
1
1-7/8”
4-1/4”
2
1-3/8”
2-1/2”
2
1-5/8”
2-7/8”
*Not guaranteed due to extreme length or fragility.
24
Tool
Number
ESSPC-322
Cutting
Diameter
1/2”
Shank
Diameter
1/2”
Carbide
Length
1-1/4”
Overall
Length
3”
No. of
Flutes
2+2
RABBETING BITS WITH 1/2” BALL BEARING
Tool
Number
ERB-24
ERB-25
Cutting
Shank
Carbide
Diameter Diameter Length
1-1/4”
1/4”
1/2”
1-1/4”
1/2”
1/2”
Shank
Length
1-7/16”
1-7/16”
Overall
Length
2”
2”
Depth of
Rabbet
3/8”
3/8”
ROUTER
CUTTERS
CARBIDECUTTERS
TIPPED ROUTER CUTTERS
ROUTER
SOLID CARBIDE COMPRESSION SPIRAL BIT
*See page 32 for additional ball bearings to change depth of rabbet.
SCREW-TYPE MORTISE BITS AND ARBOR
Tool
Number
EMB-114
EMB-114X
Cutting
Diameter
1-1/4”
1-1/4”
Carbide
Length
5/8”
5/8”
Thread
Type
1/4”-28
5/16”-24
EA-114 - Arbor for EMB-114 1/2” dia. 1/4” - 28 thread.
25
ROUTER CUTTERS
SOLID CARBIDE FLUSH TRIM BIT
1 Flute
Tool
Number
SCF
Cutting
Diameter
1/4”
Shank
Diameter
1/4”
SOLID CARBIDE BEVEL TRIM BIT
1 Flute
Tool
Number
SCB
Type of
Cut
7-1/2° Bevel
Shank
Diameter
1/4”
SOLID CARBIDE DADO FLUSH TRIM BIT
Tool
Number
SCDF
26
Overall
Length
1-1/2”
Overall
Length
1-1/2”
1 Flute
Cutting
Diameter
1/4”
Shank
Diameter
1/4”
Overall
Length
1-3/8”
Tool
Number
EGS-316
EGS-370
EGS-380
EGS-393
EGS-318
EGS-3316
EGS-314
Cutter
Diameter
2”
2”
2”
2”
2”
2”
2”
Standard
Hole
5/16”
5/16”
5/16”
5/16”
5/16”
5/16”
5/16”
Standard
Kerf
1/16”
.070
.080
3/32”
.125
3/16”
1/4”
Number of
Wings
3
3
3
3
3
3
3
EGS-416
EGS-470
EGS-480
EGS-493
EGS-418
EGS-4316
2”
2”
2”
2”
2”
2”
5/16”
5/16”
5/16”
5/16”
5/16”
5/16”
1/16”
.070
.080
3/32”
.125
3/16”
4
4
4
4
4
4
EGS-616
EGS-670
EGS-680
EGS-693
EGS-618
EGS-6316
EGS-614
2”
2”
2”
2”
2”
2”
2”
5/16”
5/16”
5/16”
5/16”
5/16”
5/16”
5/16”
1/16”
.070
.080
3/32”
.125
3/16”
1/4”
6
6
6
6
6
6
6
TONGUE & GROOVE ASSEMBLY WITH BALL BEARING
For 1/2”-3/4” material.
Tool
Number
ETGA-1
Cutting
Diameter
1-7/8”
Shank
Diameter
1/2”
CARBIDECUTTERS
ROUTER
CUTTERS
ROUTER
SLOTTING CUTTERS
2 Wing
Depth of
Cut
1/2”
Assembly includes: 1 EA-3 Arbor with Spacers and Nut
2 EB-3 Ball Bearings
2 EGS-214 Slotting Cutters
27
ROUTER CUTTERS
FLUSH CUTTERS WITH BALL BEARING
Tool
Number
EFC-1A
EFC-1
EFC-2
EFC-3
EFC-4A
EFC-4
EFC-6
EFC-8
EFC-10
EFC-11
EFC-12
Cutting
Diameter
1/4”
3/8”
1/2”
1/2”
1/4”
3/8”
1/2”
1/2”
1/2”
1/2”
1/2”
Shank
Diameter
1/4”
1/4”
1/2”
1/4”
1/4”
1/4”
1/4”
1/4”
1/2”
1/2”
1/2”
Carbide
Length
1”
1”
1”
1”
1/2”
1/2”
1/4”
1”
1”
1-1/2”
2”
Shank
Length
1-3/8”
1”
1-9/16”
15/16”
1-3/8”
1”
1”
15/16”
1-9/16”
1-5/8”
1-5/8”
TEMPLATE FLUSH CUTTERS WITH UPPER BALL BEARING
Tool
Number
EFCUB-1
EFCUB-1A
EFCUB-2
EFCUB-3
EFCUB-3A
EFCUB-4
Cutting
Diameter
1/2”
1/2”
5/8”
3/4”
3/4”
1-1/8”
Shank
Diameter
1/4”
1/4”
1/4”
1/4”
1/2”
1/2”
Carbide
Length
3/4”
1”
3/4”
3/4”
2”
1-1/2”
Overall
Length
2-3/4”
2-5/16”
2-7/8ʼ
2-1/8”
2-1/4”
2-1/16”
1-3/4”
2-1/8”
2-7/8”
4”
4-1/2”
Overall
Length
1-3/4”
2-1/2”
1-7/8”
2”
4”
2-3/4”
No. of
Flutes
2
2
2
2
2
2
2
3
3
2
2
No. of
Flutes
2
2
2
2
2
2
CHAMFERING BITS WITH BALL BEARING
Tool
Number
ECHB-1
ECHB-2
28
Degree of
Angle
45
45
Carbide
Length
5/8”
5/8”
Shank
Diameter
1/4”
1/2”
Overall
Length
1-3/4”
2”
Tool
Number
ECV-2
ECV-3
ECV-4
ECV-5
ECV-6
Radius
1/4”
3/8”
3/8”
1/2”
1/2”
Large
Diameter
7/8”
1-1/8ʼ
1-1/8”
1-3/8”
1-3/8”
Shank
Diameter
1/2”
1/4”
1/2”
1/4”
1/2”
Depth of
Cut
1/2”
1/2”
1/2”
5/8”
5/8”
CORNER ROUNDING BITS WITH BALL BEARING
Tool
Number
ECR-1B
ECR-1C
ECR-1
ECR-2
ECR-2A
ECR-3
ECR-4
ECR-5
ECR-6
ECR-6A
ECR-7
Radius
1/8”
3/16”
1/4”
1/4”
5/16”
3/8”
3/8”
1/2”
1/2”
5/8”
3/4”
Large
Diameter
1/4”
7/8”
1”
1”
1-1/8”
1-1/4”
1-1/4”
1-1/2”
1-1/2”
1-3/4”
2”
Shank
Diameter
1/4”
1/4”
1/4”
1/2”
1/4”
1/4”
1/2”
1/4”
1/2”
1/2”
1/2”
Carbide
Height
1/2”
1/2”
1/2”
1/2”
1/2”
5/8”
5/8”
3/4”
3/4”
3/4”
1”
CARBIDECUTTERS
ROUTER
COVE BITS WITH BALL BEARING
ROMAN O-GEE BITS WITH BALL BEARING
Tool
Number
EROG-1
EROG-2
EROG-3
EROG-4
Radius
5/32”
5/32”
1/4”
1/4”
Large
Diameter
1”
1”
1-3/8”
1-3/8”
Shank
Diameter
1/4”
1/2”
1/4”
1/2”
Carbide
Height
11/16”
11/16”
3/4”
3/4”
29
BALL BEARINGS AND ARBORS
BALL BEARINGS
Part
Number
EB-1
EB-2
EB-3
EB-4
EB-5
EB-6
EB-7
EB-8
EB-9
EB-10
EB-11
Outside
Diameter
3/8”
1/2”
.865
1/4”
3/8”
1/2”
5/8”
5/8”
3/4”
3/4”
1-1/8”
Inside
Diameter
1/8”
3/16”
5/16
1/8”
3/16”
1/4”
3/16”
1/4”
3/16”
1/4”
1/2”
Router Cutter
Tool Number
EFC-3/8”Diam., ECHB, EROG, ECV
EFC-1/2” Diam., Rabbet 3/8”, ECR,
ETGA-1, EGS
EFC-1/4” Diam.
Rabbet 7/16”
EFCUB 1/2” Diam.
Rabbet 5/16”
EFCUB 5/8” Diam.,
Rabbet 1/4”
EFCUB-3/4” Diam.,
EFCUB4 -1-1/8”Diam.
ARBORS INCLUDING NUT AND SPACER
Part
Number
EA-1
EA-2
EA-3
Spindle
Diameter
5/16”
5/16”
5/16”
Shank
Diameter
1/4”
1/2”
1/2”
Shank
Length
1-5/16”
1-5/16”
1-1/2”
Overall
Length
2-3/16”
2-3/8”
3”
Router Cutter
Tool Number
EGS
EGS
ETGA-1
Also Available: Hex nuts, steel spacers, retaining collars, allen screws.
30
CARBIDE BORING BITS
CARBIDE BORING BITS
CARBIDE BORING BITS
BRAD POINT
Designed for various machines such as Weeke & Morbedelli. Other sizes available - Quotation on request.
Tool No.
BPD557L
BPD557R
BPD857L
BPD857R
Cutting
Diameter
5mm
5mm
8mm
8mm
Overall
Length
57mm
57mm
57mm
57mm
Shank
Diameter*
10mm
10mm
10mm
10mm
Rotation
Left
Right
Left
Right
*W/Locking Flat. Short shanks available on request.
HINGE BORING BITS
Hinge Boring Bits have 2 cutting teeth and 2 spurs.
Tool No.
Right Hand
EHB35L
EHB35R
EHB40R
Cutting
Diameter
35mm
35mm
40mm
Overall
Length
57mm
57mm
57mm
Shank
Diameter*
10mm
10mm
10mm
*W/Locking Flat (will fit Weeke).
Rotation
Left
Right
Right
CARBIDE COUNTERBORE BIT (FACE FRAME) & REPLACEMENT DRILL
Tool No.
ECC-384
EFTD-18(DRILL)
32
Cutting
Diameter
3/8”
.136
Overall
Length
4-1/2”
2-13/16”
Shank
Diameter
3/8”
.136
Consistently Superior Quality Guaranteed
Through CNC Controlled Automation.
Home Office and Plant in Naples, Florida.
The Company Whose Name Says It All
HOME OFFICE & PLANT
Rail Head Industrial Park
1478 Rail Head Blvd., Naples, Fla. 34110
(800) EVRLAST • (239) 596-3333
Fax: (239) 596-9616
Cat. #809
NEW YORK WAREHOUSE
16 Kopf Street, Brentwood, NY 11717
(800) TCT-SAWS • (631) 273-7655
Fax: (631) 273-8700
www.everlastsaw.com

Everlast Catalog - Everlast Saw and Carbide Tools

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