Hm international mold flow standard

Mold Flow Reporting StandardThe order of slides are to be as follows:

• Fill time • Grow from • Flow Front Temp.• Maximum Shear rate • Shear Stress at wall• Pressure at the end of fill• Injection pressure• Clamp Force• Air Traps • Weld Lines• Volumetric shrinkage at ejection• Time to freeze• Deflection (X, Y & Z)• Conclusions and suggestions

Part picture

Actual No. of cavities: IE: 1+1Number of cavity analysis: IE 1+1Part Material: IE: PC+10%GFMaterial used in simulation: IE: PC+10%GFType of analyses: IE: Cool+Flow+Warp

Material Data

General: Recommended Processing:

Rheology: PVT properties:

The material datas are from supplier is in moldflow database and shown in the pictures below

Process Setup

Part Details and Tool Description

Part 、 Tool 、 Setup

Part Name: 2157000801

CAD File / Version/ Date 2157000801/ug/2010.0128

Part Volume 195.265cm^3

Nominal Wall Thickness 0.5-3.0mm

Tool Description One mold with one cavity

Injection machine Tonnage 300T

Material PC+10%GF

Material Present In Moldflow Database Yes

Injection time Automatic

Material temp 320[deg.c]

Mold temp 100[deg.c]

Velocity/Pressure Transfer (% volume) 99%

Packing Pressure 80%filling pressure

Project Area 296.541cm^2

Mesh statistics

Mesh statistics

Mesh for analysis

Wall thickness

Gate Location and size

The mold is hot feed system.Detail dimension was based on the drawing.

Cooling Layout

NOTES:

Simulation results list• Fill time

• Grow from

• Flow Front Temp.

• Maximum Shear rate

• Shear Stress at wall

• Pressure at the end of fill

• Injection pressure

• Clamp Force

• Air Traps

• Weld Lines

• Volumetric shrinkage at ejection

• Time to freeze

• Deflection

• Conclusions and suggestions

Result : Fill Pattern

• This result shows how the melt flows through the cavity.

Click the plot, you will see the animated flow.Click the plot, you will see the animated flow. Fill time is about 0.9904sec.

Fill time/Short Shot SeriesThe following plots are a series of short shots. Each plot represents a specific time at which the cavity is filled. These plots illustrate the flow front progression and pressure . distribution at that specified time.

80% filled 95% filled 100% filled

30% filled 50% filled 75% filled

Fill time/Contour

The area with dense lines in the above picture represents the area with lower flow velocity; and the area with sparse lines represents the area

with higher flow velocity.

Grow from This result uses numbers to identify which gate the polymer was injected into, showing us what areas of the part were filled from what gate.

Temp. at flow front

Above figure showed the temperature at the part. As you see above figure, the temperature value normally uniformed all over the part.

Maximum Shear rate The picture shows the distribution of the shear rate at wall when fulfilled. The maximum value in the gate area is 95621 1/s when fulfilled.

The maximum shear rate is 40000 1/s which recommended in the material database of moldflow.

Shear Stress at wall The picture shows the distribution of the shear stress at wall when fulfilled. The maximum value is 4.03MPa when fulfilled.

Pressure at the end of fill

Above figure shows the pressure distribution through the flow path inside the mold, at the end of the filling phase.

Injection pressure

Packing profile plot

The maximum value is 100.6MPa, at 0.974s. Injection

pressure specified at Packing is 80.52MPa

Clamp force

Max. clamp force during filling is 117.53Tons;

Max. clamp during packing is 225.2Tons.

The maximum clamp force is 225.2Tons.

Weld lines locations

Above figure shows the location of weld-line on the part. To move or moderate these weld-lines, we have to optimize the processing condition.Increase the melt temperature, injection speed, or injection pressure or packing pressure can improve the quality of weld lines.

Air trapped area• This result shows areas of the cavity that may require additional venting– it should be viewed in combination with the filling pattern

result.

Air traps locations are shown by small pink balls. Most of them can be vented easily. But note venting in region where flow fronts meet.

Volumetric shrinkage at ejection

The maximum shrinkage at ejection is 5.739%.The minimum shrinkage at ejection is 0.4268%.

Time to freeze, part

The result shows the amount of time taken for all of the elements in the part to freeze to ejection temperature.

Deflection (x10)

The maximum deflection value is about 0.371mm. The transparent shape is the original. The scaled factor is 10.

X -deflection (x10)

Above figure shows the X-deflection distribution. The transparent shape is the original. The scaled factor is 10.

The area where red arrow indicates on the side of part moved inward about 0.2352~0.2403mm.

Y -deflection (x10)

Above figure shows the Y-deflection distribution. The transparent shape is the original. The scaled factor is 10.

The area where red arrow indicates on the side of part moved inward about 0.3012~ 0.3192mm.

Z -deflection (x30)

The area where red arrow indicates on the side of part moved upward about 0.0906mm.The side area where black arrow indicates moved downward about 0.0857mm.

Above figure shows the Z-deflection distribution. The transparent shape is the original. The scaled factor is 30.

Conclusions &SuggestionsFrom the above analysis:

Fill time is about 0.9904sec.

The deflection in Z axis direction is about 0.17mm and it is mainly caused by product structure and the shrinkage.

The bulk stress exceed the allowable value (0.5MPa) in most area, and need to adjust injection velocity in molding.

The volumetric shrinkage of the product is non-uniform. Shrinkage is large in the thick region. Volumetric shrinkage can be

controlled by the use of packing profiles.

Increase the melt temperature, injection speed, or injection pressure or packing pressure can improve the quality of weld lines.

Fill time Weld line Flow Front temperature

Injection pressure

Volumetric shrinkage

Deflection:Z Component

0.9904sec Note venting 313.1~324.5deg.C 100.6MPa 0.4268 ～ 5.739% -0.0857~+0.0906mm