Product development in automotive, aerospace, trucks, trains and related areas today is affected by tremendous and transforming technical challenges of the market. CAE teams face growing and often competing demands from a number of disciplines on a daily basis. They are in need of highly integrated software tools that allow the assessment of many crucial attributes of conceptual body structures. The performance in passive safety scenarios, weight, vibrational modes, torsion, stiffness for comfort and driving performance are among them.
Highest quality has to be achieved for a growing number of design alternatives in short cycle times. To reach the seamless, reliable development, repeated simulations have to be carried out at an early stage of the process, even when many characteristics of the product are still unknown. That strongly helps in order to have a quick first model representing the project status very early in the process.
The mesh size, quality criteria, the connection representations and other parameters are under full control of the user.
This way the FE simulation deck can be created for all required disciplines including crash, NVH and durability derived from a single geometry model. Model components can be re-assembled, partial models can be combined automatically with existing FE simulation models. This works for single components as well as for entire bodies structures. Select Analyze to analyze the result of the simulation.
Locally creates a prismatic geometrical machining feature of a design part for milling and drilling machining. This website uses cookies to improve your experience while you navigate through the website.
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All rights reserved. Several process parameters were studied in order to reduce the risks associated with progressing a new design. The parameters included injection strategies, injection channels, preforms assembly and resin aging. Locate injection gates and vents to avoid dry spots.
Predict and optimize filling and curing times Calculate the pressure in the mould during injection: to find the mould closing force to design the mould Find the velocity of the flow front to prevent fiber displacement.
Assist in the design of new moulds and in the improvement of existing moulds.
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