Re machine conditions, as discussed by others here.
Identical conditions, only means identical to within the accuracy of the controls, and all controlls have an accuracy range. GF nylon 6.6 has a very narrow processing window, and therefore requires more accurate control than most other materials
Not all parameters are controlled, for example, ambient temperature, cooling water temperature, electricity supply, drafts in the moulding shop. Back pressure is often overlooked, as is moisture content of the granuals.
Slightly damp granuals leads to drool, the operator changes conditions to control the drool. This leads to freezing the nozzel, this causes reduced pack, this gives increased shrinkage.
Also, the moulds are identical?
What about section thickness and gate position, size and shape.
Given that cavity sizes are identical enough, are the waterways identical, are the runners identical and are the gates identical. Even if the waterways are identical, are the hoses hooked up with the same water flow pattern.
It is wise to regularly check surface temperatures at various defined positions of the mould if you are chaseing problems.
Are the steel blocks (read heat sinks) the same size and shape in both cases.
The shrinkage of nylon 6.6 is quite sensitive to effective pack. even small variations in conditions, eg the very same machine and mould, but with different ambient conditions can produce variations.
Variations in effective nozzel temperature, and therefore freeze off time, and therefore effective pack, can have a profound effect on the moulding of nylon 6.6.
I always recomend a heater band very close to the tip of the nozzel, with a variable voltage to control the temperature, so as to prevent drool, freeze, drool problems. PID electronic controllers are also suitable.
Having said that, I find the main variations in nylon 6.6 are more to do with moisture conditioning and or aftershrinkage. Moisture conditioning has two effects on dimensions.
1) It swells the nylon as water is absorbed.
2) It anneals or stress relieves the nylon at about 60 deg C if hot water is used for conditioning.
I have often seen moisture conditioning of nylon done in a hot water bath, at an alledged temperature, only to find that there is up to 40 deg C variation in temp accross the bath, with some parts being well conditioned, some being hardly conditioned, and some being anealed as cwell as conditioned.
Are the parts moisture conditioned
If so, at what conditions
How long after moulding, and/or conditioning are the dimensions measured.
Are you measuring a dimension that might be affected by warpage rather than simple shrinkage.
Not all shrinkage occurs imeadiately after moulding.
You will find variations in size due to aftershrinkage occuring while swelling is also occuring due to moisture absobtion. This somewhat complicates the situation as the two forces oppose each other to varing degrees, depending on a number of variables.
Thats all I have time for now.
Do some homework, then if necessary, ask me some more specific questions.
Also read up on all the shrinkage data you can for Nylons, Acetal and Polyesters, then read all you can on moisture conditioning of nylons, then think about what you are realy getting from each site
Regards
pat
