Experimental and simulated comparison of finite element models of bimetallic sheets for deep drawing process

Dengiz, Cengiz Görkem; Yıldızlı, Kemal

doi:10.1007/s00170-021-07944-0

Int J Adv Manuf Technol

2021

DOI: 10.1007/s00170-021-07944-0

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Experimental and simulated comparison of finite element models of bimetallic sheets for deep drawing process

Cengiz Görkem Dengiz

Kemal Yıldızlı

Abstract: In this study, different techniques using for modeling of bimetallic sheets by nite elements method has been compared. Sheets modeled with 5 different assumptions were compared with each other and experimental datas, to determine the FE model that gives the most realistic result. FE models were created with the assumption that the adhesion was excellent or separable, and with the case that the solidi ed adhesive in the intermediate layer was modeled and not modeled. As a result, the closest values to the exper… Show more

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Cited by 3 publications

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Experimental and numerical optimization of deep drawing process parameters for square medical container design with the Taguchi method

Taşkın,

Dengiz

2024

Int J Adv Manuf Technol

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Medical containers that sterilize surgical instruments are constantly needed in the healthcare industry. In line with this need, improvements in the fabrication of medical containers are important. Determining the design factors of medical containers fabricated by deep drawing saves time and cost. This study determined, the design factors of square medical containers and experimentally verified the deep drawing process modeled in Abaqus/Explicit finite element (FE) software. Taguchi statistical method was used to reduce the number of experiments. Blank holder force (BHF), punch radius (RP), die radius (RD), coefficient of friction between die and blank (µDB), coefficient of friction between punch and blank (µPB), coefficient of friction between holder and blank (µHB) as variable factors while selecting thickness reduction (TR) and maximum punch force (PF) were selected as output parameters. The effect of variable factors on the output parameters was determined by ANOVA analysis. As a result of the examinations, it was deter-mined that TR and PF increased as BHF, µDB and µHB values increased, whereas they decreased as RP and RD increased. On the other hand, it was determined that TR decreased and PF increased as µPB increased. In addition, the corners of the sheets were chamfered in different sizes to prevent the formation of ears in the containers. Finally, the appropriate chamfer size was determined by examining the sheet thicknesses.

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Experimental and numerical optimization of deep drawing process parameters for square medical container design with the Taguchi method

Taşkın,

Dengiz

2024

Int J Adv Manuf Technol

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A unified phase-field approach for failure prediction in modulus graded adhesively bonded single-lap joints

Gorkem Dengiz,

Dorduncu

2023

Theoretical and Applied Fracture Mechanics

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Prediction and Experimental Verification of the Critical Fracture Blank Holder Force for Deep Drawing of Box-Shaped Parts

et al. 2022

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In this paper, the deformation law of box-shaped parts drawing was analyzed, and the mathematical expression for calculating the critical fracture blank holder force (BHF) was deduced. In order to determine the fracture parameters of 08Al sheet, notched specimen tensile tests were conducted, the full-field strain of the specimens from deformation to fracture was obtained by the digital image correlation (DIC) technology. The evolution law of the stress triaxiality and Lode parameter with plastic deformation was obtained, and the fracture parameters of the modified Mohr-Coulomb (MMC) fracture criterion were fitted by the least squares method. The finite element (FE) simulation model coupled with MMC ductile fracture criterion was established to simulate the fracture behavior of sheet. The reliability of theoretical calculation was evaluated by FE simulation and experiments under various process conditions. The results demonstrated that the prediction of the critical fracture BHF by theoretical calculation and FE simulation were both partial safety predictions and all fracture earlier than the tests. In the theoretical calculation, when the flange shrinkage rate was 0.19, the critical BHF was the smallest, and the error was 17.5% compared with the tests, the theoretical calculation was closer to the test results. The theoretical calculation and FE simulation coupled with ductile fracture criterion provide a reference value for predicting the critical fracture BHF and intelligent control in actual production.

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Experimental and simulated comparison of finite element models of bimetallic sheets for deep drawing process

Cited by 3 publications

References 18 publications

Experimental and numerical optimization of deep drawing process parameters for square medical container design with the Taguchi method

Experimental and numerical optimization of deep drawing process parameters for square medical container design with the Taguchi method

A unified phase-field approach for failure prediction in modulus graded adhesively bonded single-lap joints

Prediction and Experimental Verification of the Critical Fracture Blank Holder Force for Deep Drawing of Box-Shaped Parts

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