Bozo_Sam
Aerospace
- Aug 22, 2019
- 32
Hi there,
I am trying to make the simulation of injection molding. I use ABS plastics. After cooling down the "warpage" which to my knowledge should be the final deformation of the part after it has cooled to room temperature, is about 1%. This to me is rather strange since the mold shrinkage of the material is "Moulding shrinkage, free, longitudinal - % 0.4 – 0.7".
On the other hand, the thermal expansion of the material is 0.0001. And since the part cools form about 130C to 30C after being taken from the mold, this corresponds well to the 1% shrinkage that I am getting from the simulation.
My question is: Which one of the two parameters is more important for the final shrinkage of the part. It seems like thermal expansion plays a bigger role, although I have always been taught that the plastic molded part is going to shrink for roughly the Moulding shrinkage and not the thermal expansion.
Thanks in advance,
Uroš
I am trying to make the simulation of injection molding. I use ABS plastics. After cooling down the "warpage" which to my knowledge should be the final deformation of the part after it has cooled to room temperature, is about 1%. This to me is rather strange since the mold shrinkage of the material is "Moulding shrinkage, free, longitudinal - % 0.4 – 0.7".
On the other hand, the thermal expansion of the material is 0.0001. And since the part cools form about 130C to 30C after being taken from the mold, this corresponds well to the 1% shrinkage that I am getting from the simulation.
My question is: Which one of the two parameters is more important for the final shrinkage of the part. It seems like thermal expansion plays a bigger role, although I have always been taught that the plastic molded part is going to shrink for roughly the Moulding shrinkage and not the thermal expansion.
Thanks in advance,
Uroš