We will introduce examples aimed at stress reduction, weight reduction, and control of natural frequencies, considering situations such as component interference! Detailed explanations of analysis models, optimization conditions, and discussions will be provided!
In this case study collection, we introduce problem-solving examples using the structural optimization design software 'OPTISHAPE-TS.' We include examples of shape optimization for arms considering layout constraints due to part interference, as well as shape optimization case studies using stress constraints from multiple parts. From the analysis model to optimization conditions, results, and discussions, we provide detailed explanations using diagrams. Please feel free to download and take a look. [Featured Examples] ■ Shape optimization considering interference with other parts ■ Shape optimization considering stress ■ Shape optimization to improve natural frequency ■ Stress reduction through optimization of fillet shapes *For more details, please refer to the PDF materials or feel free to contact us! *For those who are not members of Ipros, materials can also be downloaded from the related links below (within our company site).
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■Shape optimization considering interference with other components■ By specifying areas where shape variations are possible, it is easy to obtain an optimal shape that takes layout into account. We will introduce an optimization case that involves lightweighting an arm while considering interference conditions.
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■Shape Optimization Considering Stress■ Stress is an important guideline for strength design. We will introduce optimization cases with different stress constraints applied to various parts of the model.
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■Shape Optimization to Improve Natural Frequencies■ We present a case study that seeks the optimal shape to maximize the specified order of natural frequencies while maintaining the seating position.
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■Stress Reduction through Fillet Shape Optimization■ This is an example of reducing stress concentration by focusing on the fillet section of a wrench component. Taking manufacturing requirements into account, we sought a shape that minimizes stress while maintaining a uniform R shape.
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Kuin Co., Ltd. is a venture business company specializing in computational mechanics and CAE software development, founded with a strong desire to "enter the overwhelmingly overseas-dominated CAE software field with original Japanese products." We are committed to originality and operate under the motto "Dreamy CAE from Japan," focusing on the development, sales, and support of our own CAE software. ≪Software≫ ● Structural Optimization OPTISHAPE-TS Useful for various situations such as initial design stages and improvements to existing shapes. ● CAD Model Generation S-Generator Converts optimized shapes into CAD models. ● Image-Based Structural Analysis VOXELCON Directly models and analyzes CT images and STL data from CAD. ● General Parameter Optimization AMDESS Parameter optimization done with the ease of using spreadsheet software. ● SOLIDWORKS Add-in Structural Optimization HiramekiWorks Performs structural optimization within SOLIDWORKS and automatically generates CAD models of the resulting shapes.