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Global-Local Analysis Using StressCheck, HyperMesh, HyperView and OptiStruct

This whitepaper describes the workflow for combining global and local analysis in structural development using StressCheck in combination with HyperWorks.

Rapid Design Exploration to Determine Feasible FPSO and Spar Systems

The riser design process is well established and uses verified simulation tools to predict response to environmental loading. Design optimization is an established technology which has been widely used in other industry sectors including aerospace and automotive. Riser systems show inherently non-linear sensitivity to applied loading and parametric changes. For this reason response surface methods are required for optimization. The paper discusses two example riser configuration design problems and describes integration of Altair HyperWorks design optimization technology with the existing design process. The optimization proved to be efficient and repeatable. The designs produced for each configuration proved to be strong improvements over the baseline starting points and the wealth of information on sensitivity provided deeper understanding of the factors influencing design performance.

A Holistic Virtual Design Process Applied to the Development of an Innovative Child Seat Concept

There is a need to minimise product development costs and provide efficient design solutions to maintain competitiveness, so increasingly companies in the Child Restraint System (CRS) industry are turning to Computer Aided Engineering (CAE) to enhance the design and development for their products. Graco has worked with Altair Engineering to develop a group 1 CRS using an advanced CAE driven design process. The design process introduces a number of key phases in the design cycle each of which are positioned to maximize the efficiency of the structure and reduce or remove the cost involved in a traditional, iterative ‘test it and see’ approach.

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