Hello everyone,
I have a part which is getting 7.9mm deflection.Is it possible to see how the deflection is reduced by adding cooling channel and rerunning the analysis. If yes, what are the steps after adding cooling channel to get better deflection result. I have previously run a simulation with and without cooling channel but there is no difference between the deflection results. Maybe I am doing it wrong way. Please comment your valuable opinion if you have faced the same problem.
Comparison with and without cooling channel
Regards
Sanjay Paul
1. If cooling is uniform at both core and cavity side. Then deflection may not improve much for such parts, with cooling vs without cooling
2. Try to increasing coolant temperature at core side, which may increase core side temperature and shrinkage.
Then deflection may improve in z-direction. but it may not be drastic change in deflection . Try and confirm
3. For such long and flat parts,higher deflection may not be a issue during assembly, as snaps will be at end fill region, which helps to assembly properly.
confirm with actual part
Try to increase with 5 DegC & 10 Deg C
run iterations with different options
Hello Sabarinathan,
Thanks for your comment. I have added the images as you requested.
Regards
Sanjay Paul
Hi @Sanjay_paul
You have to make sure that we have achieved flow balancing on each part. adjust the feed system position until you get the flow balanced condition.
Option01 - End fill should be on all these 3 regions & check the results (Refer attached images). definitely your injection pressure will get reduced once the flow has been balanced in the part.
Option02 - Try achieve the flow balancing condition on this four end fill regions.
Optimizing the flow is a primary step to follow which will solve most of the filling related issues.
This might also sometimes help reducing the warpage & the pressure requirement to fill this part.
Try & let us know
I dont know why Option02 picture was not uploaded.
im adding again Option02 picture - try get the end fill on this regions
Hi @Sanjay_paul
Procedure for optimizing warpage
1) identify the causes of warpage
- shrinkage
- fiber orientation
- cooling
2) if the warpage is influenced by cooling, then you may need to optimize the cooling channels based on core and cavity side temperatures.
if the effect of cooling is negligible, optimizing the cooling channel is not a solution to reduce the warpage
3) in your Comparison with and without cooling channel - image, noticed you have used dual domain mesh
in case of DD mesh mesh match should be more than 90% for better prediction of warpage.
Hello Mr. Madhukeshwar,
As you said I had run my simulation with 5 DegC & 10 Deg C. Comparison with and without cooling is given below. Small change in deflection.
Regards
Paul
Hi @Sanjay_paul
I hope you have used cooling circuit wizard to create the cooling channels.
you are trying to correlate the warpage of actual part with different cooling channels using Moldflow
If this is the existing part, try to simulate the exact cooling channels as in the tool
if you are trying to correlate the results, first you should replicate the problem in Moldflow
1) use the feed system as in the tool
2) model cooling channels as in tool
3) use same material
4) try to incorporate process parameters as used during production
Having ribs at times increases warpage, Please don't go by the impression having ribs will reduce warpage
CAE tools like Moldflow are there to evaluate different designs
please try different iterations with different rib structure and optimize your design
Hello Sabarinathan,
You had given more importance in balancing the flow in your comment. Now I understand why balancing is more important firstly. Thanks a lot for your advise..
At first stage when flow is not balanced:
Deflection:10.04mm
At second stage where flow is balanced:
Deflection:8.835mm
At third stage when flow is balance and ribs are changed
Deflection:6.768mm
Regards
Sanjay Paul
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