Umud Esat Öztürk scite author profile

A three-step Finite Element model has been implemented to predict the spring-in of L-shaped parts. The material property development during the cure has been modelled as step changes during transitions between viscous, rubbery and glassy states of the resin. The tool-part interaction is modelled as a sliding interface with a constant sliding shear stress. The effect of various material and geometric variables on the deformation of L-Section parts are investigated by a parameter sensitivity analysis. The spring-in predictions obtained by the Finite Element Method are compared to experimental measurements for unidirectional and cross-ply parts of various thicknesses and radii. Results indicate that although a 2D plane strain model can predict the spring-in measured at the symmetry plane fairly well, it is not sufficient to capture the complex deformation patterns observed.

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Energy absorption calculations in multiple compressive loading of polymeric foams

Öztürk¹,

Anlaş²

2009

Materials & Design

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Hydrostatic compression of anisotropic low density polymeric foams under multiple loadings and unloadings

Öztürk

Anlaş

2011

Polymer Testing

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Efficient method for fatigue based shape optimization of the oil sump carrying a differential case in four wheel drive vehicles

Öztürk

2011

Struct Multidisc Optim

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