Injection Moulding PDF

Summary

This presentation covers the injection moulding process, including its different types of machines, components, and operation sequences. It also discusses the advantages, disadvantages, and process controls of injection moulding. The presentation elaborates on clamping systems (toggle, hydraulic, and tie-bar less).

Full Transcript

INJECTION MOULDING
CORPORATE TRAINING AND
PLANNING
CORPORATE TRAINING AND
PLANNING
 Type of Injection Moulding
Machine
Hand Injection Moulding M/C

Plunger type Injection Moulding M/C

Reciprocating Screw Type Injection
Moulding M/C
 Hand Injection Moulding Machine

vertical machine consists of Barrel, Plunger,
Band Heaters along with energy regulator, Rack
& Pinion system for Injecting the material by the
plunger, a torpedo and nozzle.
 Plunger Type Injection
Moulding Machine

Vertical & Horizontal Plunger Type Injection Moulding Machine
The Reciprocating Screw
Type
Machine components
 The Injection Process
Plasticises the material by reciprocating Screw.
Injects the molten material to a closed mould
– via a channel system of gates and runners.
Cools the Mould.
Refills the material for the next shot.
Ejects the Product.
Closes the Mould for further cycle.
Injection Moulded Items
Injection Moulded Items
Injection Moulded Items
 Advantages of Injection
Moulding Process
Parts can be produced at high production rates.
Large volume production is possible.
Relatively low labour cost per unit is obtainable.
Process is highly susceptible to automation.
Parts require little or no finishing.
Many different surfaces, colours, and finishes are
available.
Good decoration is possible.
For many shapes this process is the most economical way
to fabricate.
Process permits the manufacture of very small parts which
are almost impossible to fabricate in quantities by other
methods.
 Advantages of Injection
Moulding Process
Minimal scrap loss result as runners, gates, and rejects
can be reground and reused.
Same items can be moulded in different materials,
without changing the machine or mould in some cases.
Close dimensional tolerances can be maintained.
Parts can be moulded with metallic and non-metallic
inserts.
Parts can be moulded in a combination of plastic and
such fillers as glass, asbestos, talc and carbon.
The inherent properties of the material give many
advantages such as high strength-weight rates, corrosion
resistance, strength and clarity.
Limitations of Injection Moulding
Intense industry competition often results in low profit
margins.

Mould costs are high.

Moulding machinery and auxiliary equipment costs are
high.

Lack of knowledge about the fundamentals of the
process causes problems.

Lack of knowledge about the long term properties of the
materials may result in long-term failures.
 Machine operation sequence
The mould closes and the screw begins moving forward for
injection.

The cavity fills as the reciprocating screw moves forward, as
a plunger.
 Machine operation sequence
The cavity is packed as the screw continuously moves forward.

The cavity cools as the gate freezes off and the screw begins to
retract to plasticize material for the next shot.
 Machine operation sequence
The mould opens for part ejection

The mould closes and the next cycle begins
Injection Mould
 A two-plate mould. A three-plate mould.

The moulded system includes a delivery system and moulded parts.
 Machine operation
sequence/Processing Step
1.Mould close
2.Tonnage build up/Locking
3.Injection
4.Holding(Packing)
5.Refilling(Dosing/Charging) / Cooling
6.Suck back
7.Mould open
8.Ejection
CORPORATE TRAINING AND
PLANNING
Cycle time in injection moulding
 Process Controls
Injection Moulding cycle can be broken down into four
phases:
Fill,
Pack,
Hold, and
Cooling/plastication

These phases can be controlled by following variables:
Injection Speed,
Plastic Temperature,
Plastic Pressure,
Cooling Time and Temperature.
 Back Pressure (Kg/Cm2 or bar)
Back pressure is the amount of pressure
exerted by the material ahead of the screw,
as the screw is pushed back in preparation
for the next shot.

Effect of Back Pressure
More Homogeneous Mix
Proper Melting
More compact
Sometime leads degradation
 Injection Speed (cm/Sec)
The injection speed is the forward
speed of the screw during its injection
operation per unit time.

Effect of Injection Speed
Easy Injection of Material
Avoid Short-Shot
Some times leads more orientation & burn
marks
 Screw Rotation Speed
The screw rotation speed (RPM) is the rate at which the
plasticizing screw rotates.

The faster the screw rotation result the following..

Faster the material is compressed by the screw flights

Increasing the amount of shear heating

Low residence time, some less melting
CLAMPING SYSTEM

CORPORATE TRAINING AND
PLANNING
 TOGGLE TYPE CLAMPING
A toggle is mechanically device to amplify force.
In a moulding machine, which consists of two bars
joined, together end to end with a pivot.
The end of one bar is attached to a stationary platen,
and the other end of a second bar is attached to the
movable platen.
When the mould is open, the toggle is in the shape of a
V.
When pressure is applied to the pivot, the two bars form
a straight line.
TOGGLE TYPE CLAMPING
 TOGGLE TYPE CLAMPING

ADVANTAGE

Low cost and lower horsepower needed to run.
Positive clamp of the mould

DISADVANTAGE

Do not read the clamp force.
Clamping is more difficult.
Higher maintenance as lubricant is provided.
 HYDRAULIC CLAMPING
A clamping unit actuated by hydraulic cylinder, which is
directly connected to the moving, closed the mould. In
this case ram of hydraulic system is attached to moving
platen. There are two halves in hydraulic cylinder, which
is actually inlet and outlet of oil.

When oil goes to the cylinder with pressure oil pushes
the ram to forward direction by which moving platen
moves and mould closed and when oil comes from the
cylinder the ram come back and mould is open.
HYDRAULIC CLAMPING
 HYDRAULIC CLAMPING
ADVANTAGE

Clamp speed easily controlled and stopped at any point.
Direct a read out of clamp force.
Easy adjustment of clamped force and easy mould set
up.
Low maintenance as part is self lubricated.

DISADVANTAGE

It is higher cost and more expensive than toggle
system.
None positive clamp.
 TIE-BAR LESS CLAMPING
Tie-Bar less clamping system is basically Hydraulic
clamping system without any tie bar.

The platen is moved on a rail system.

The main advantage of this system there is no limitation
of mould platen size.

As there is no tie bar so the mould dimension is not so
important.

Also mounting of the mould is easy and it is very useful
when products eject from the mould is manual.
TIE-BAR LESS CLAMPING
 TIE-BAR LESS CLAMPING
Much larger mould mounting area.
Larger stroke compared to the toggle type machines.
Full machine capacity can be utilised.
Smaller machines can mould larger components.
Saves floor space.
Saves electrical energy because of reduction in the size of machine.
Has the capacity to reduce weight of the moulded component because tie-
bar stretching is not there.
Machine becomes very flexible for future modification.
Easy access to mould cavity's because of the absence of the tie bars.
Robotic arm movement becomes easy.
Fewer moving parts so lesser wear and tear so longer life for machines.
Lower lubrication required.
Removal of mould plates much simple.
Greater stability.
THANK YOU