1 Scope
This part of ISO 294 specifies a two-cavity mould (designated the type F ISO mould) for the injection
moulding of 80 mm × 90 mm plates with a preferred thickness of 2 mm for single-point
data acquisition because 2 mm has been found to provide the maximum anisotropic properties,
with only a slight sensitivity to the rate of injection. For the design of plastic
parts, this will provide upper and lower bounds for the tensile properties. Matching
the plate thickness to a given part thickness is not a suitable criterion because
of the effect of mould filling rate and part geometry on anisotropy. Suitable test
specimens [ISO 527‑2 type 1BA tensile test specimens or type 1 (80 mm × 10 mm) bars] are then machined
or die-cut from the plates (see Annex A) and used to obtain information on the anisotropy of thermoplastic parts.
Investigation of the anisotropy of materials is a special procedure intended to provide
guidance in the design of mouldings for end-use applications and is not intended as
a quality control tool.
In the injection moulding of thermoplastic materials, the flow of molten polymer may
influence the orientation of fillers such as fibreglass or the orientation of polymer
chains. This can result in anisotropic behaviour. The knowledge of anisotropic behaviour
is valuable in designing plastic parts.
For the purposes of this part of ISO 294, the flow direction is defined as the direction from the gate to the far end of the
mould cavity, and the cross direction as the direction perpendicular to the flow direction.
The type F mould is not intended to replace the type D mould used to determine the
moulding shrinkage of thermoplastics.