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Mouldflow options

August 18, 2015
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Moldflow Analysis Options

Fiber Orientation, Gas injection, Over molding, Metal Inserts, In Mold Decoration and Core Shift. 

We have continually updated and expanded our plastics simulation tools and have a wide capability in the field of plastics injection moulding simulation: 

Most options are available with basic FEA model types including, 3D tetrahedral, Mid-plane and Fusion / Dual Domain mesh formats.

Fiber Orientation The Fiber-orientation flow analysis is used to predict the behavior of composite materials. While injection-molded fiber-reinforced thermoplastics constitute a major commercial application of short-fiber composite (a filler within a polymer matrix) materials, the modeling of the process is more complex than in other flow applications. 

In injection-molded composites, the fiber alignment (or orientation) distributions show a layered nature, and are affected by the filling speed, the processing conditions and material behavior, plus the fiber aspect ratio and concentration. Without proper consideration of the fiber behavior, there is a tendency to significantly overestimate the orientation levels. The Moldflow fiber orientation model allows significantly improved orientation prediction accuracy over a range of materials and fiber contents. 

Fiber / Polymer composite materials simulation:

Predict fiber orientation and thermo-mechanical property distributions in the molded part 

Predict elastic modulus and average modulus in the flow and transverse-flow directions

Predict linear thermal expansion coefficient (LTEC) and average LTEC

Calculate Poisson's Ratio, a measure of the transverse contraction of a part compared to its length when exposed to tensile stress

Optimize filling pattern and fiber orientation to reduce shrinkage variations and part warpage

Gas Injection Gas-Assisted Injection Molding is a process where an inert gas is introduced at pressure, into the polymer melt stream at the end of the polymer injection phase. The gas injection displaces the molten polymer core ahead of the gas, into the as yet unfilled sections of the mold, and compensates for the effects of volumetric shrinkage, thus completing the filling and packing phases of the cycle and producing a hollow part. 

Traditionally, injection molded components have been designed with a relatively constant wall thickness throughout the component. This design guideline helps to avoid major flaws or defects such as sink marks and warpage. However, apart from the simplest of parts, it is impossible to design a component where all sections are of identical thickness. These variations in wall thickness result in different sections of the part packing differently, which in turn means that there will be differentials in shrinkage throughout the molding and that subsequently distortion and sinkage can often occur in these situations. Gas Injection Capability:

Gas injection allows cost effective production of components with:

Thick section geometry. 

No sink marks. 

Minimal internal stresses. 

Reduced warpage. 

Low clamp pressures. 

Evaluate the filling pattern with the influence of gas injection to aid in part design, gate placement, and process setup 

Properly size gas channels for optimal filling and gas penetration 

Determine the best gas channel layout to control gas penetration 

Inject gas at any location or in multiple locations within the part or runner system 

Inject gas through multiple gas pins simultausly or at different times during the process 

Detect areas of poor gas penetration or other problems 

Over molding, Metal Inserts In-mold labels are very thin inserts usually less than 1mm thick. Labels are applied to the mold before each injection cycle. The labels normally have different material properties can affect the flow and cooling behavior. An insert is a component that is placed into the mold before the injection phase and is anchored into the plastic part by being partially or wholly surrounded by the injected plastic. Typical inserts may have threads, may be electrically conductive, or may be a different plastic material.

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