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DF-mold Mold flow assist to optimum Laser printers mold design and processing

Category:
Plastic Engineering Solutions
Price:
10000 USD
Payment Method:
T/T, L/C,Western Union
Specifications
Introduction

DengFeng mold had designed so many kinds of Motormeter mold construction such as Honda, VW, TOYOTA etc.. We are good at this kinds of field.
Detaisl contact: Jacky Qiu: 8613533665622
                             Skype: df mold

One-stop plastic injection molding Details: Jacky Qiu MSN: dfmold@yahoo.com  Differential Shrinkage

A Warp analysis is used to diagnose the cause of warping and recommend a solution, such as gate location changes, design parameter changes, or reduction of wall thickness variations.
Warp analysis is supported for Mid-plane, Dual Domain and 3D analysis technologies.
Warpage is affected greatly by fiber orientation. Warpage in an injection molded part is caused by variations in shrinkage that occur:

  • From region to region in the part.
  • Through the thickness of the part.
  • Parallel and perpendicular to the direction of material orientation.

Any attempt to predict the likelihood and amount of warpage for a particular component must first account for these shrinkage variations.
The material that is used influences the warpage of the part. Sometimes you must choose a material with low, uniform shrinkage to achieve dimensional accuracy. These materials are usually more expensive, but you may be able to use a cheaper material and save costs by observing shrinkage and warpage design principles.
Note: Differential shrinkage caused by fiber orientation is one of the main causes of warpage.
If you are analyzing a fiber-filled material you should turn on the Fiber analysis option in the Fill+Pack process settings.
Warp analysis types
There are different warp analysis types that can be selected.
The following Warp analysis types are available and can be selected from the Process Settings Wizard:
Buckling

Determines whether the warpage of the part is stable or unstable.

If the buckling analysis indicates that the warpage is stable (critical load factor > 1), the deflection results obtained from the buckling analysis provide a good indication of the final deformed shape of the part.

If the buckling analysis indicates that the warpage is unstable (critical load factor < 1), you will need to run a large deflection analysis to determine the final deformed shape of the part.

This analysis is performed on Midplane meshed models.
Small deflection

Select this analysis type if you expect the warpage of the part to be stable. The small deflection analysis provides the final deformed shape of the part, assuming linear stress-strain behavior within the part.

This analysis can be performed on Midplane, Dual Domain and 3D meshed models.
Large deflection

Select this analysis type if you expect the warpage of the part to be unstable, as determined from a previous automatic or buckling analysis, or the warpage of the part is borderline stable/unstable and/or you want the most accurate prediction of the shape of the part. The large deflection analysis provides the final deformed shape of the part, allowing for nonlinear stress-strain behavior within the part.

This analysis can be performed on Midplane and 3D meshed models.
Automatic

Select this option if you want the solver to identify whether the warpage is stable or unstable. If the warpage is determined to be unstable and you are using a Midplane mesh, this option will automatically run an additional large deflection analysis to determine the true final deformed shape of the part. Depending on your mesh type, automatic analysis first runs a buckling analysis, a large deflection analysis is run if the Eigenvalue is less than 1.5, otherwise a small deflection analysis is performed.
The Warp analysis uses the results of the Cool analysis and the Fill analysis to predict shrinkage and warpage of the part. Modeling tasks and an analysis sequence must be set up before a Warp analysis is run.

Specification:   

Certificates                      

AAA grade credit enterprise, ISO9001, ISO14001, SGS

Quality-guaranteed          

Japanese standard of QC management &  Euramerican standards

Service                             

Designing the mould, CNC processing and other tooling, assemble all mould parts

OEM & ODM service     

Acceptable

Design software                 

UG, PRO-E, CAD, CAXA, etc

Mould base Standard      

LKM , HASCO , DME, etc

Moulds’ steel                     

NAK80, S136(H), 2738, 718&738 and P20 etc

hardness of steel:              

15--60 HRC

cav/core material               

2738,2343,DIN-1,S130,2344,738H,718,8407,S136,NAK80,P20 etc

Cavity                                

Single/multi

Runner                              

Hot/cold

Mould life                          

500,000-1,000,000 shots as you required

Final products’ materials  

ABS, PP, PE, POM, PA6(66)+GF, PC, PMMA HIPS, GPPS etc

Final Products’ colors       

Any color as your required

Lead Time                         

25-50 workdays based on the different products

Relevant requirements reachable 

ROHS, UL, or as requested

Package                             

Wooden case package or follow customers' requirement

Price Terms                      

FOB Shanghai Port, China

Payment term                    

T/T, L/C at sight

Details contact: Jacky Qiu Skype:    df mold

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MOQ:
1 SET