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| Stampack | Sheet Metal Forming Simulation Software for Tool Designers

Most of the simulation definition work is automated leaving engineers to concentrate on the engineering problems and solutions rather than on the numerical parameters.

Stampack is practical software oriented to product and process design engineers so that knowledge and experience of finite element analysis (FEA) is not required.

Stampack provides a practical method for almost eliminating the creation of physical prototypes and thereby reducing time and money required in getting the product into the market.

Forming Processes

Covered Sectors

Automotive industry

Household industry

Aerospace industry

Packaging industry

Stainless steel industry

Electrical connectors


Features & Benefits

Process with Simulation **Lower costs **Productivity gains **Quality improvements

Process without Simulation **Higher costs **Inefficient timings

Technology for cost reduction, quality improvement and productivity gains ·Industry-driven program ·Parallel computing for faster calculations

·Optimized FE technology for accurate predictions

·Easy-to-use & intuitive interaction

·Accurate formability for metal flow, wrinkle, fracture & surface defects prediction

·Links to other CAD - CAM, die design, onestep, optimization and PLM software

·Springback prediction and spring forward algorithm for tooling compensation


Formability Analysis and Springback Predic

Deep drawing processes & product validation 3D Shell

Deep drawing and stamping of thick sheets 2D ¡ 3D Solid

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Progressive die stamping validation 2D ¡ 3D Shell & Solid

Stretch forming 3D Shell

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tampack helps you to design formed parts so they can be done in the most costefficient way using the most economical process and material. Stampack also can help you to develop a part shape that can be formed easily and that will fit and function properly. Major areas of concern can be identified easily with Stampack, such as excessive thinning, fractures, or wrinkling.

tampack for progressive die stamping validation lets users check and generate feasible stations in the complete tool. Stampack optimizes the complex die validation process before tool construction. The complete simulation of the process combined with the results evaluation will help tool designers to take the right decisions, dramatically reducing the potential for error and greatly improve manufacturing productivity.

tampack provides alternative element technology for very thick plates and bulky geometries where full 3D optimized elements may be utilized. The 3D technology also provides an industrial and engineering criterion to predict failure of materials subjected to 3D state of stresses. The unique Triaxial Failure Diagram (TFD) criterion, allows the identification of material limits and valid safety zones.

tretch forming is a very attractive process since it is capable of accurately forming a wide variety of complex curved sheet metal parts and profiles. This is an essential process for body panels in the automotive industry as well as aircraft skin and wing panels or leading edges in the aerospace industry. Stampack users can easily define the simple or tangential stretch-forming process and adjust the trajectories of the jaws and forming tools accordingly.


ction

Trim Optimizer

Initial Trimming Line

Ironing process simulation 2D ¡ 3D Solid

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Intermediate Trimming Line

tampack provides appropriate element technology for an accurate ironing process definition where full 3D elements should be used. Ironing is a very useful metal forming process when employed in combination with deep drawing to produce a uniform wall thickness part with greater height-to-diameter ratio. For axis-symmetric or plain strain components, the most effective solution is obtained using 2D elements.

Optimized Trimming Line

Optimum trimming lines 3D Shell

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tampack trim optimizer (TROP) is an automatic trimming line optimization module. Is an essential tool for the determination of optimum blank shapes and trimming lines.

Springback and springback compensation 2D ¡ 3D Shell & Solid

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tampack allows the accurate prediction of the final par t geometr y via the fast springback computation. A spring for ward algorithm has been developed to systematically generate a complete geometr y description of the tooling sur face with springback compensation. The algorithm has been proven successfully with complicated 3d real metal forming par ts.

The trim line is rapidly determined to ensure that the desired shape and dimensions of the part boundary are obtained at the end of those operations which follow the trimming operation. TROP automatically adjusts the trim line to remove or add sheet metal until the desired part boundary is achieved. Optimum trim line blank shape is necessary for the sheet metal forming process. The trim optimization not only prevents the wastage of material or reduces product development period but also improves product quality and reduces occurrence of defects like wrinkling and tearing.


Worldwide Customer References

Automotive industry

Aerospace industry

Household industry

Electrical connectors

Packaging industry

Distributed by:

Worldwide Technical & Sales Support Stampack is globally supported via our distributor network that is continually expanding to meet the demands of our customers. Please contact us to find your closest distributor

Developed & marketed by:

Quantech ATZ S.A. Mediterranean Technology Park C3 Building – Office 308 C/ Esteve Terrades nº5. 08860 Castelldefels, Barcelona - Spain Tel: (+34) 932 047 083 www.stampack.com stampack@quantech.es

Stampack Catalogue | Sheet metal forming simulation software  

Company brochure | About | Features & Benefits | Formability Analysis and Springback Prediction | Trim Optimizer | Clients | Worldwide Tech...

Stampack Catalogue | Sheet metal forming simulation software  

Company brochure | About | Features & Benefits | Formability Analysis and Springback Prediction | Trim Optimizer | Clients | Worldwide Tech...

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