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Published byKaiden Porte Modified over 2 years ago

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Dan Holm ALFGAM Optimering Conventional C-frame Optimization of an aligned C-frame (ACF350x350)

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350) misalignment die movement angular error

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350) misalignment die movement angular error Optimization formulation Objective function: minimize die movement Constraints: misalignment < 0.1 mm angular error < 0.3° weight < 50 kg stress < 300 MPa (infinite life) Design variables: position of nodes and thicknesses of members (40 independent variables)

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350)

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350)

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350)

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350)

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350)

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350)

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Dan Holm ALFGAM Optimering Optimization of an aligned C-frame (ACF350x350)

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Dan Holm ALFGAM Optimering C-Power technologies AB is holder ACF technology patent worldwide. Optimization of an aligned C-frame (ACF350x350)

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