Arif Şahin scite author profile

Arif Şahin

3Publications

0Citation Statements Received

76Citation Statements Given

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University of Stuttgart

Publications

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Dynamic Analysis of a Piezoelectric Motor in ANSYS

Usal¹,

Şahin²,

Usal³

2014

AKU-J. Sci. Eng.

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Bu çalışmada model olarak, lineer bir ultrasonik motor tipi olan Piezolegs-LL1011A piezoelektrik motor seçilmiştir. Bu motorun modellemesi yapıldıktan sonra modal ve harmonik analizleri sonlu elemanlar paket programı olan ANSYS ile çözdürülmüştür. Yapılan bu analizler neticesinde Piezolegs motora ait modal frekans değerleri elde edilmiştir. Elde edilen bu modal frekans sonuçlarından harmonik analizde kullanılabilecek ve sürücü ucun rotor hareketini sağlayacak en uygun frekans aralığı tayin edilmiştir. Piezolegs motora uygulanan yükler doğrultusunda harmonik analizi yapılarak elde edilen frekanslara göre motordaki sürücü uç hareketleri gözlemlenmiştir.

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Investigation of Auxetic Structural Deformation Behavior of PBAT Polymers Using Process and Finite Element Simulation

Schneider¹,

Guski²,

Şahin³

et al. 2023

Preprint

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The current work investigates the auxetic tensile deformation behavior of the inversehoneycomb structure with 5 × 5 cells made of biodegradable poly(butylene adipate-coterephthalate) (PBAT). Fused deposition modeling, an additive manufacturing method, produced such specimens. Residual stress (RS) and warpage, more or less, always exist in such specimens due to layer-by-layer fabrication, i.e., repeated heating and cooling. The RS influences the auxetic deformation behavior, but its measurement is challenging due to the very fine structure. Instead, the finite-element(FE)-based process simulation realized by an ABAQUS plug-in numerically predicts the RS and warpage. The predicted warpage shows a negligible slight deviation compared to the design topology. This process simulation also delivers the temperature evolution of a small volume material, revealing the local cyclic heating and cooling. The achieved RS serves as the initial condition for the FE model used to investigate the auxetic tensile behavior. With the outcomes from FE calculation without considering RS at hand, the effect of the RS on the deformation behavior is discussed for the global force-displacement curve, the structural Poisson’s ratio evolution, the deformed structural status, the stress distribution, and evolution, where the first three and the warpage are also compared with experimental results. Furthermore, the FE simulation can easily provide the global stress-strain flow curve with the total stress calculated from the elemental ones.

show abstract

Investigation of Auxetic Structural Deformation Behavior of PBAT Polymers Using Process and Finite Element Simulation

et al. 2023

View full text Add to dashboard Cite

The current work investigates the auxetic tensile deformation behavior of the inversehoneycomb structure with 5 × 5 cells made of biodegradable poly(butylene adipate-coterephthalate) (PBAT). Fused deposition modeling, an additive manufacturing method, was used to produce such specimens. Residual stress (RS) and warpage, more or less, always exist in such specimens due to their layer-by-layer fabrication, i.e., repeated heating and cooling. The RS influences the auxetic deformation behavior, but its measurement is challenging due to its very fine structure. Instead, the finite-element (FE)-based process simulation realized using an ABAQUS plug-in numerically predicts the RS and warpage. The predicted warpage shows a negligibly slight deviation compared to the design topology. This process simulation also provides the temperature evolution of a small-volume material, revealing the effects of local cyclic heating and cooling. The achieved RS serves as the initial condition for the FE model used to investigate the auxetic tensile behavior. With the outcomes from FE calculation without consideration of the RS, the effect of the RS on the deformation behavior is discussed for the global force–displacement curve, the structural Poisson’s ratio evolution, the deformed structural status, the stress distribution, and the evolution, where the first three and the warpage are also compared with the experimental results. Furthermore, the FE simulation can easily provide the global stress–strain flow curve with the total stress calculated from the elemental stresses.

show abstract

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Arif Şahin

Dynamic Analysis of a Piezoelectric Motor in ANSYS

Investigation of Auxetic Structural Deformation Behavior of PBAT Polymers Using Process and Finite Element Simulation

Investigation of Auxetic Structural Deformation Behavior of PBAT Polymers Using Process and Finite Element Simulation

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