milling and turning operations
TRANSCRIPT
MILLING AND TURNING OPERATIONS
JUTUR SAI KRISHNA
MILLING OPERATIONS
INTRODUCTION :
•Milling is the machining process of using rotary cutters to
remove material from a work piece advancing (or feeding) in a
direction at an angle with the axis of the tool.
•It covers a wide variety of different operations and machines, on
scales from small individual parts to large, heavy-duty gang
milling operations.
•It is one of the most commonly used processes in industry and
machine shops today for machining parts to precise sizes and
shapes.
PRINCIPLE OF MILLING MACHINE:
•Milling operates on the principle of rotary motion.
•A milling cutter is spun about an axis while a work piece is
advanced through it in such a way that the blades of the cutter are
able to shave chips of material with each pass.
•Axis of tool rotation is perpendicular to feed.
HORIZANTAL MILLING MACHINE :
•A horizontal mill has the same sort of x–y
table, but the cutters are mounted on a
horizontal arbor across the table.
•Many horizontal mills also feature a built-in
rotary table that allows milling at various
angles; this feature is called a universal table.
VERTICAL MILLING MACHINE :
•In the vertical mill the spindle axis is
vertically oriented.
•Milling cutters are held in the spindle and
rotate on its axis.
•There are two subcategories of vertical mills:
the bed mill and the turret mill.
OPERATIONS PERFORMED ON MILLING MACHINE :
Plain milling:
•Up milling and down
milling:- Machining is
done by the teeth on the
cylindrical surface of the
cutter, Finished surface is
parallel to the axis of the
cutter.
OPERATIONS PERFORMED ON MILLING MACHINE :
Face milling:•Machining is done by the teeth on the flatsurface of the cutter, Finished surface isperpendicular to the axis of the cutter.
Side and face milling:•Machining is done by the teeth on the flat aswell as cylindrical surface of the cutter, finishedsurfaces are perpendicular as well as parallel tothe axis of the cutter.
Side milling:•Machining is done by the teeth on thecylindrical surface the cutter, Finishedsurface is parallel to the axis of the cutter.
OPERATIONS PERFORMED ON MILLING MACHINE :
Profile milling:•The cutter has outline same as that of theshape of the profile. It is used for gear teethmanufacturing.
End milling:•The machining is done by the cutterteeth on the end as well as periphery ofthe cutter. It is used for machining ofcomplicated profiles.
Gang milling:•Two or more milling cutters aremounted on the arbor. Horizontal andvertical surfaces are machinedsimultaneously.
OPERATIONS PERFORMED ON MILLING MACHINE :
Saw milling( Slitting):
•The thickness of cutter issmall.(0.75 to 5 mm) It is usedfor cutting deep slots or forcutting off operations.
Keyway milling:
•Keyways can be prepared byusing side and face millingcutter on horizontal millingmachine or end milling cutteron vertical milling machine.
TURNING OPERATIONS
INTRODUCTION :
•This operation is one of the most basic machining processes.
That is, the part is rotated while a single point cutting tool is
moved parallel to the axis of rotation.
•Turning can be done on the external surface of the part as well as
internally (boring).
•The tool's axes of movement may be literally a straight line, or
they may be along some set of curves or angles, but they are
essentially linear.
•Performed on a machine tool called a lathe.
PRINCIPLE OF TURNING MACHINE:
•Turning is a form of machining, a material removal process, which
is used to create rotational parts by cutting away unwanted
material.
•The turning process requires a turning machine or lathe, work
piece, fixture, and cutting tool.
•Here the cutting tool remains constant and the work piece is in
rotating motion.
TURNING OPERATIONS:
FACING:
•Facing in the context of turning
work involves moving the cutting
tool at right angles to the axis of
rotation of the rotating work piece.
•Tool is fed radially inward.
•Profiling is also done in this.
PARTING:
•This process, also called parting
off or cut-off, is used to create deep
grooves which will remove a
completed one or part-complete
component from its parent stock.
TURNING OPERATIONS:
GROOVING:
•Grooving is like parting,
except that grooves are cut
to a specific depth instead
of severing a completed/
part-complete component
from the stock.
• Grooving can be
performed on internal and
external surfaces, as well as
on the face of the part (face
grooving or trepanning).
TURNING OPERATIONS:
BORING:•Enlarging or smoothing an existing hole created by
drilling, moulding etc. That is the machining of
internal cylindrical forms.
a) By mounting work piece to the spindle via a
chuck or faceplate.
b) By mounting work piece onto the cross slide and
placing cutting tool into the chuck. This work is
suitable for castings that are too awkward to mount
in the face plate.
KNURLING:
•The cutting of a serrated pattern
onto the surface of a part to use as a
hand grip using a special purpose
knurling tool.
TURNING OPERATIONS:
DRILLING:
•Drilling is used to remove
material from the inside of a work
piece.
•This process utilizes
standard drill bits held stationary
in the tail stock or tool turret of
the lathe.
REAMING: •The sizing operation that removes a
small amount of metal from a hole
already drilled.
•It is done for making internal holes of
very accurate diameters. For example,
a 6mm hole is made by drilling with
5.98 mm drill bit and then reamed to
accurate dimensions.
TURNING OPERATIONS:
THREADING:
•Both standard and non-standard screw
threads can be turned on a lathe using an
appropriate cutting tool.
• (Usually having a 60, or 55° nose
angle) Either externally, or within a
bore. Generally referred to as single-
point threading.
•Tapping of threaded nuts and holes
a) using hand taps and tailstock centre.
b)using a tapping device with a slipping
clutch to reduce risk of breakage of the
tap.
TURNING OPERATIONS:
TAPER TURNING:
•The taper turning is an operation
of producing a conical surface by
gradual reduction in the diameter
of a cylindrical work piece.
POLYGONAL TURNING:
•In which non-circular forms are
machined without interrupting the
rotation of the raw material.
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