Specific Process Knowledge/Back-end processing/Polymer Injection Molder/MoldTemp: Difference between revisions

From LabAdviser
Choi (talk | contribs)
Choi (talk | contribs)
 
(21 intermediate revisions by the same user not shown)
Line 1: Line 1:
== Mold temperature setup ==
== Mold temperature setup ==


Injection moulding processes can be divided into two different types:
Injection molding processes can be divided into two different types:


#Constant mould temperature processes
#Constant mold temperature processes
#Variable mould temperature (Variotherm) processes
#Variable mold temperature (Variotherm) processes




=== 1. Constant mould temperature processes ===
=== 1. Constant mold temperature processes ===


In this type of process the mould remains at the same temperature during the entire injection moulding cycle. The temperature should not exceed the glass transition temperature of the polymer being used. Otherwise the polymer will never get cold enough to solidify to a degree where it can be demoulded without being deformed/damaged. How close one can get to the glass transition temperature depends on several factors like e.g. polymer type, cooling time and whether the polymer has a tendency to stick to the shim (especially an issue when replicating high aspect ratio structures). With Topas 5013L-10 (which has a Tg around 135°C) one can often go up to 100°C and for samples that are easy to demold even higher (110-120°C). For polymers with very low Tg (such as e.g. flexible polyurethanes) one often has to run as cold as possible. With the mould heeting switched completely off and mould cooling water fully open, the lowest achievable mould temperature is around 15°C.
In this type of process the mold remains at the same temperature during the entire injection molding cycle. The temperature should not exceed the glass transition (or melting point) temperature of the polymer being used. Otherwise the polymer will never get cold enough to solidify to a degree where it can be demolded without being deformed/damaged. How close one can get to the glass transition temperature depends on several factors like e.g. polymer type, cooling time and whether the polymer has a tendency to stick to the shim (especially an issue when replicating high aspect ratio structures). With Topas 5013L-10 (which has a Tg around 135°C) one can often go up to 100°C and for samples that are easy to demold even higher (110-120°C). For polymers with very low Tg (such as e.g. flexible polyurethanes) one often has to run as cold as possible. With the mold heating switched completely off and mold cooling water fully open, the lowest achievable mold temperature is around 15°C.




Line 17: Line 17:
! Drawbacks
! Drawbacks
|-  
|-  
|Low mould temperature||Very fast cycle times due to short cooling times||Problems with replication of small features because polymer solidifies prior to complete filling
|Low mold temperature||Very fast cycle times due to short cooling times||Problems with replication of small features (incomplete filling). Stress in samples.
|-
|-
|High mould temperature||Reasonably short cycle times, improved replication||Problems with demoulding
|High mold temperature||Improved replication||Problems with demolding. Problems with diesel effect. Slightly longer cycle times.
|-  
|-  
|}
|}




For constant mould temperature processes it is a good idea to manually close the mould cooling water valves '''e''' and '''g''' (see Chapter 4.11 in the [http://labmanager.dtu.dk/d4Show.php?id=2081&mach=278 manual]).
For constant mold temperature processes it is a good idea to manually close the mold cooling water valves '''e''' and '''g'''. For reproducible results it is also a good idea to make sure that you always run at the same temperature setpoint for the mold casing cooling water controllers (see Chapter 4.11 in the [http://labmanager.dtu.dk/d4Show.php?id=2081&mach=278 manual]). A setpoint around 50-70°C for both sides works well in most cases. If the tool casing is allowed to heat up to 90°C or higher it will often result in problems because the internal parts of the mold will get stuck (especially the ejector pin system).


=== 2. Variable mould temperature (Variotherm) processes ===
=== 2. Variable mold temperature (Variotherm) processes ===
 
In this type of process, the mold changes temperature during the cycle. There are two principal ways to achieve this:
 
<p>'''A''': Switch off mold heating during the molding cycle. This case is best suited for situations where a slow and well-controlled cooling is desirable. Since cooling happens quite slowly (heat dissipates out in the tool casing) this method is usually only of practical interest when the mold temperature only has to drop slightly (maybe up to ~10-20°C drop in temperature).</p>
<p>'''B''': Switch off mold heating '''and''' enable mold cooling water during the molding cycle. This is basically the same procedure as above except we also send cooling water through the mold. This allows for rapid cooling of the mold making it suitable for situations where large or quick drops in temperature are desired.</p>
 
 
====A: Variable mold temperature: Switch off heating without insert cooling====
 
To set up the machine for this mode do the following:
 
*Set up the points in your cycle where you want the mold heaters to switch on and switch off (See Chapter 4.12 in the [http://labmanager.dtu.dk/d4Show.php?id=2081&mach=278 manual])
*Close valves '''e''' and '''g''' as described in Chapter 4.11
*Heat up the mold to the setpoint (you have to fulfill the condition set in your program to switch on the mold heating)
 
There are many possibilities for defining the point where heating should activate (switch on) and deactivate (switch off). Selecting 'Ejector advance' as Activate point and 'Inject' or 'Holding pressure' as Deactivate point usually works well. But there are many other options, including delays and defining the activate/deactivate points directly in the process sequence.
 
====B: Variable mold temperature: Switch off heating with insert cooling====
 
To set up the machine for this mode do the following:
 
*Set up the points in your cycle where you want mold heaters to switch on and switch off (See Chapter 4.12 in the [http://labmanager.dtu.dk/d4Show.php?id=2081&mach=278 manual])
*Set up the points in your cycle where you want insert cooling valves to open and to close. Valves are set up for each half of the mold separately.
*Close the magnetic valves '''f''' and '''h''' by fulfilling the 'Activate' condition set above (you have to fulfill the condition set above to close the valves)
*Open valves '''e''' and '''g'''. Since magnetic valves '''f''' and '''h''' should be closed the propellers should NOT be spinning. The cooling water flow can be adjusted with valves '''b''' and '''c'''. For fastest possible cooling rate the valves should be fully open. If better control is preferred the flow can be reduced.
*Heat up the mold to the temperature setpoint (you have to fulfill the condition set above to switch on the mold heating)
 
 
The machine should now be ready for your process. Please remember that:<br>
*Every time you open the gate (door) at the mold (either the front gate or the back gate) mold heating will switch off and the insert cooling water valves ('''f''' + '''h''') will open due to a safety interlock. To switch heating back on and close the cooling water vales, the 'Activate' conditions have to be fulfilled again.
*Avoid circulation of mold cooling water while the mold heating is switched on. The machine will give an error stating that the mold heating is defective. Mold heating should always be switched off before opening mold cooling water valves.

Latest revision as of 14:51, 6 August 2020

Mold temperature setup

Injection molding processes can be divided into two different types:

  1. Constant mold temperature processes
  2. Variable mold temperature (Variotherm) processes


1. Constant mold temperature processes

In this type of process the mold remains at the same temperature during the entire injection molding cycle. The temperature should not exceed the glass transition (or melting point) temperature of the polymer being used. Otherwise the polymer will never get cold enough to solidify to a degree where it can be demolded without being deformed/damaged. How close one can get to the glass transition temperature depends on several factors like e.g. polymer type, cooling time and whether the polymer has a tendency to stick to the shim (especially an issue when replicating high aspect ratio structures). With Topas 5013L-10 (which has a Tg around 135°C) one can often go up to 100°C and for samples that are easy to demold even higher (110-120°C). For polymers with very low Tg (such as e.g. flexible polyurethanes) one often has to run as cold as possible. With the mold heating switched completely off and mold cooling water fully open, the lowest achievable mold temperature is around 15°C.


Parameter Benefits Drawbacks
Low mold temperature Very fast cycle times due to short cooling times Problems with replication of small features (incomplete filling). Stress in samples.
High mold temperature Improved replication Problems with demolding. Problems with diesel effect. Slightly longer cycle times.


For constant mold temperature processes it is a good idea to manually close the mold cooling water valves e and g. For reproducible results it is also a good idea to make sure that you always run at the same temperature setpoint for the mold casing cooling water controllers (see Chapter 4.11 in the manual). A setpoint around 50-70°C for both sides works well in most cases. If the tool casing is allowed to heat up to 90°C or higher it will often result in problems because the internal parts of the mold will get stuck (especially the ejector pin system).

2. Variable mold temperature (Variotherm) processes

In this type of process, the mold changes temperature during the cycle. There are two principal ways to achieve this:

A: Switch off mold heating during the molding cycle. This case is best suited for situations where a slow and well-controlled cooling is desirable. Since cooling happens quite slowly (heat dissipates out in the tool casing) this method is usually only of practical interest when the mold temperature only has to drop slightly (maybe up to ~10-20°C drop in temperature).

B: Switch off mold heating and enable mold cooling water during the molding cycle. This is basically the same procedure as above except we also send cooling water through the mold. This allows for rapid cooling of the mold making it suitable for situations where large or quick drops in temperature are desired.


A: Variable mold temperature: Switch off heating without insert cooling

To set up the machine for this mode do the following:

  • Set up the points in your cycle where you want the mold heaters to switch on and switch off (See Chapter 4.12 in the manual)
  • Close valves e and g as described in Chapter 4.11
  • Heat up the mold to the setpoint (you have to fulfill the condition set in your program to switch on the mold heating)

There are many possibilities for defining the point where heating should activate (switch on) and deactivate (switch off). Selecting 'Ejector advance' as Activate point and 'Inject' or 'Holding pressure' as Deactivate point usually works well. But there are many other options, including delays and defining the activate/deactivate points directly in the process sequence.

B: Variable mold temperature: Switch off heating with insert cooling

To set up the machine for this mode do the following:

  • Set up the points in your cycle where you want mold heaters to switch on and switch off (See Chapter 4.12 in the manual)
  • Set up the points in your cycle where you want insert cooling valves to open and to close. Valves are set up for each half of the mold separately.
  • Close the magnetic valves f and h by fulfilling the 'Activate' condition set above (you have to fulfill the condition set above to close the valves)
  • Open valves e and g. Since magnetic valves f and h should be closed the propellers should NOT be spinning. The cooling water flow can be adjusted with valves b and c. For fastest possible cooling rate the valves should be fully open. If better control is preferred the flow can be reduced.
  • Heat up the mold to the temperature setpoint (you have to fulfill the condition set above to switch on the mold heating)


The machine should now be ready for your process. Please remember that:

  • Every time you open the gate (door) at the mold (either the front gate or the back gate) mold heating will switch off and the insert cooling water valves (f + h) will open due to a safety interlock. To switch heating back on and close the cooling water vales, the 'Activate' conditions have to be fulfilled again.
  • Avoid circulation of mold cooling water while the mold heating is switched on. The machine will give an error stating that the mold heating is defective. Mold heating should always be switched off before opening mold cooling water valves.