SUPPORT > PRODUCT TRAINING > END MILL DESIGN CRITERIA AND TECHNICAL FEATURES
END MILL DESIGN CRITERIA AND TECHNICAL FEATURES
DESIGN CRITERIA
A - mill size or cutting diameter B - shank
diameter C - length of cut or flute length D
- overall length
Angular Edge - That
cutting edge that is a straight line, forming an angle
with the cutter axis. The surface produced by a
cutting edge of this type will not be flat as is the
case with a helical cutting edge.
Axial Runout - The
difference between the highest and lowest indicator
reading taken at the face of a cutter near the outer
diameter.
Chamfer - A short relieved
flat installed where the periphery and face of a
cutter meet. Used to strengthen the otherwise weak
corner.
Chip Breakers - Special
geometry of the rake face that causes the chip to curl
tightly and break.
Chip Splitters - Notches
in the circumference of a Corn cob style End mill
cutter resulting in narrow chips. Suitable for rough
machining.
Core Diameter - The
diameter of a cylinder ( or cone shape with tapered
End mills) tangent to the flutes at the deepest point.
Counterbore - A recess in
a non-end cutting tool to facilitate grinding.
Cutter Sweep (Runout) -
Material removed by the fluting cutter (or grinding
wheel) at the end of the flute.
Cutting Edge (A) - The
leading edge of the cutter tooth. The
intersection of two finely finished surfaces,
generally of an included angle of less than 90
degrees.
Cutting Edge Angle - The
angle formed by the cutting edge and the tool axis.
Differential pitch cutters
- A specifically designed variation in the radial
spacing of the cutter teeth. This provides a variation
in tooth spacing and can be beneficial in reducing
chatter. This concept is based on reducing the
harmonic effect of the tool contacting the part in an
exact moment of vibration.
Entrance Angle - The angle
formed by a line through the center of the cutter at
90 to the direction of feed and a radial line through
the initial point of contact. As this angle approaches
90 degrees the shock loading is increased.
Entrance Angle: Ramp-in -
Angle or radius value to enter the cutter into the
part surface
Fillet - The radius at the
bottom of the flute, from which core diameter is
found.
Flute - Space between
cutting teeth providing chip space and regrinding
capabilities. The number of cutting
edges. Sometimes referred to as "teeth" or
"gullet". The number on an end mill will
determine the feed rate.
Flute Length - Length of
flutes or grooves. Often used incorrectly to denote
cutting length.
Shank - Projecting portion
of cutter which locates and drives the cutter from the
machine spindle or adapter.
Straight Shank -
Cylindrical shank, with or without driving flats or
notches, often seen on carbide end mills.
Weldon Shank - Industry
name for a specific type of shank with a drive and
location flat. The flat on the cutter provides.
positive ( non slip ) driving surface to the End mill.
Tooth - The cutting edge
of the End mill.
Tooth Face - Also known as
the Rake Face. The portion of the tooth upon which the
tooth meets the part.
END MILL TECHNICAL
FEATURES
Back taper - A slight
taper resulting in the shank end of the cutting
diameter being smaller than the cutting end. This
condition aids not only the plunging or drilling
condition but also tends to compensate for deflection.
Clearance - Space created
by the removal of additional tool material from behind
the relief angle.
Clearance Angle - The
angle formed by the cleared surface and line tangent
to the cutting edge.
Clearance: Primary (1st
angle, 5°-9°) - Relief adjacent to the cutting edge.
Clearance: Tertiary
(3rd) - Additional relief clearance provided
adjacent to the secondary angle.
Concave - Small hollow
required on the end face of an End mill. This feature
is produced by a Dish angle produced on the cutter.
Convex - An outward
projection radius feature on the end face of a Ball
mill.
Dish Angle - The angle
formed by the end cutting edge and a plane
perpendicular to the cutter axis. Dish ensures that a
flat surface is produced by the cutter.
Gash (Notch) - The
secondary cuts on a tool to provide chip space at
corners and ends. The space forming the end
cutting edge, which is used when feeding axially.
Gash angle - The relief
angle of the gash feature.
Gash width - The width of
the gash feature. The space between cutting edges,
which provides chip space and resharpening
capabilities. Sometimes called the flute.
Heel - The back edge of
the relieved land. It is the surface of the tooth
trailing the cutting edge.
Helical - A cutting edge
or flute which progresses uniformly around a
cylindrical surface in an axial direction. The
normal helical direction is a right direction spiral.
Helix Angle - The angle
formed by a line tangent to the helix and a plane
through the axis of the cutter or the cutting edge
angle which a helical cutting edge makes with a plane
containing the axis of a cylindrical cutter.
Hook - A term used to
refer to a concave condition of a tooth face. This
term implies a curved surface rather than a straight
surface. Hook must be measured at the cutting
edge, making measurement difficult.
Land - The narrow surface
of a profile sharpened cutter tooth immediately behind
the cutting edge,
(A) Cylindrical - a narrow portion of the
peripheral land, adjacent to the cutting edge,
having no radial relief.
(B) Relieved - A portion of the land adjacent to
the cutting edge, which provides relief.
Lead - The axial advance
of a helical cutting edge in one revolution.
Lead = (Cutter
diameter x Pi) / Tangent Helix Angle
Length of Cut (Flute
Length) - The effective axial length of the peripheral
cutting edge which has been relieved to cut.
Radial Rake angle - The
angle made by the rake face and a radius measured in a
plane normal to the axis.
Rake - The angular
relationship between the tooth face or a tangent to
the tooth face at a given point and a reference plane
or line. An angular feature ground onto the
surface of an end mill.
Axial rake - The angle
formed by a plane passing through the axis and a
line coinciding with or tangent to the tooth face.
Effective rake - The
rake angle influencing chip formation most is that
measured normal to the cutting edge. The effective
rake angle is greatly affected by the radial and
axial rakes only when corner angles are involved.
Helical rake - For most
purposes the terms helical and axial rake can be
used interchangeably. It is the inclination of the
tooth face with reference to a plane through the
cutter axis.
Negative Rake - Exists
when the initial contact between tool and workpiece
occurs at a point or line on the tooth other than
the cutting edge. The rake surface leads the cutting
edge.
Positive Rake - Exists
when the initial contact between the cutter and the
workpiece occurs at the cutting edge. The cutting
edge leads the rake surface.
Relief-Space - Provided by
removing material immediately behind the cutting edge.
Done to eliminate the possibility of heeling or
rubbing.
Axial angle relief - The
angle made by a line tangent to the relieved surface
at the end cutting edge and a plane normal to the
axis.
Axial relief - The
relief measured in the axial direction between a
plane perpendicular to the axis at the cutting edge
and the relieved surface. Helps to prevent
rubbing as the corner wears.
Concave relief - The
relieved surface behind the cutting edge having a
concave form. Produced by a grinding wheel set at 90
degrees to the cutter axis.
Eccentric relief - The
relieved surface behind the cutting edge having a
convex form. Produced by a type I wheel presented at
an angle to the cutter axis.
End relief - Relief on
the end of an end mill. Needed only for plunging
cutters and to relieve rubbing as the result of
corner wear.
Flat relief - The
relieved surface behind the cutting edge having a
flat surface produced by the face of a cup wheel.
Radial relief - Relief
in a radial direction measured in the plane of
rotation. It can be measured by the amount of
indicator drop at a given radius in a given amount
of angular rotation.
Tangential rake angle -
The angle made by a line tangent to a hooked tooth at
the cutting edge and a radius passing through the same
point in plane normal to the axis.
