Plasticity and Formability of Annealed, Commercially-Pure Aluminum: Experiments and Modeling

Ha, Jinjin; Fones, Johnathon; Kinsey, Brad L.; Korkolis, Yannis P.

doi:10.3390/ma13194285

Cited by 15 publications

(8 citation statements)

References 73 publications

(92 reference statements)

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“…They are then heattreated at 343 • C for 5400 s (1.5 h), followed by air-cooling. The mechanical and forming properties of this material have been extensively characterized in earlier works [17,18]. Here, circular AA1100-O blanks of 35 diameter and 0.51 mm thick are produced via waterjetting.…”

Section: Materials and Toolingmentioning

confidence: 99%

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Flange Wrinkling in Deep-Drawing: Experiments, Simulations and a Reduced-Order Model

Chen

Carter

Korkolis

2022

JMMP

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Flange wrinkling is often seen in deep-drawing process when the applied blankholding force is too small. This paper investigates the plastic wrinkling of flange under a constant blankholding force. A series of deep-drawing experiments of AA1100-O blanks are conducted with different blankholding forces. The critical cup height and wrinkling wave numbers for each case is established. A reduced-order model of flange wrinkling is developed using the energy method, which is implemented to predict the flange wrinkling of AA1100-O sheet by incrementally updating the flange geometry and material hardening parameters during the drawing process. A deep-drawing finite element model is developed in ABAQUS/standard to simulate the flange wrinkling of AA1100-O blanks under constant blankholding force. The predicted cup height and wave numbers from the finite element model and reduced-order model are compared with the experimental results, which demonstrates the accuracy of the reduced-order model, and its potential application in fast prediction of wrinkling in deep-drawing process.

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Section: Materials and Toolingmentioning

confidence: 99%

“…where the fitting parameters are shown in Table 2 [17]. Since it is difficult to obtain an explicit expression from Equation ( 12) with the Voce model, numerical integration method is adopted to obtain the stress distributions in the flange.…”

Section: Stress Statementioning

confidence: 99%

Flange Wrinkling in Deep-Drawing: Experiments, Simulations and a Reduced-Order Model

Chen

Carter

Korkolis

2022

JMMP

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“…The R-value in figure 1(b) was determined by the plastic strain ratio of strain in width and thickness directions as described in Equation (2). To characterize the anisotropic yielding of the DP980 sheet, plane-strain tension (PST) and disk compression tests [9][10][11][12][13] were additionally conducted to calibrate the anisotropic yield function Yld2000-2D [14] as shown in figure 2. These experiments were post-processed as in our earlier work, e.g., [9,11].…”

Section: Determination Of Initial Yield Locusmentioning

confidence: 99%

Transient Hardening and R-value Behavior in Two-step Tension and Loading Reversal for DP980 Sheet

Kim

McNally

et al. 2022

IOP Conf. Ser.: Mater. Sci. Eng.

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The present work deals with transient hardening and R-value behavior in two-step tension and loading reversal for an advanced high strength steel DP980. Mechanical properties under the loading paths were obtained through continuous tension-compression-tension, two-step tension and loading reversal experiments. The Yld2000-2d was employed to describe the initial yielding of DP980 1.0t through conducting monotonic tests. To characterize the transient behavior, a combined isotropic/non-linear kinematic hardening model, based on the 4-term Chaboche model, was selected. The Chaboche model was calibrated with the hardening curve in continuous tension–compression-tension loading. The transient behavior from the two-step tension and the loading reversal tests was then predicted by the model. The model performance was evaluated with the comparison of transient hardening and R-value from experiments and model predictions.

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“…The "plane-strain" tension tests also showed some deviation from the ideal zero-transverse strain case, with an trasverse/axial strain ratio of about -1/3, hence in this work they are considered biaxial tension tests, instead (details can be found in [13]). This is also partially because of the high R-value in RD and TD, and the unsuitable geometry used for this material (although the same geometry was highlily statisfactory for other materials [3,4,6,[17][18][19]). Despite that, the biaxial tension tests provide useful biaxial loading information for the anisotropy calibration.…”

Section: Achievements and Trends In Materials Formingmentioning

confidence: 99%

“…A thorough evaluation of these properties requires welldeveloped experimental setup and careful analysis. Typical sheet metal characterization experiments involve uniaxial tension tests, cruciform tests, bulge tests, plane-strain tension tests or disc compression tests, and have been often used to establish the hardening and plastic anisotropy of sheet metal [1][2][3][4][5][6][7]. For Nb in particular, Zamiri and Pourboghrat [8] conducted a set of uniaxial tension tests and proposed an evolving yield function to capture its anisotropy.…”

Section: Introductionmentioning

confidence: 99%

Deep-Drawing of Commercially-Pure Niobium Sheet

Chen

Kim

Carriere

et al. 2022

KEM

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Pure Niobium is a material of interest for high-energy-physics applications including superconducting accelerators. Cold-rolled sheets of Nb exhibit significant plastic anisotropy. Here we report on the mechanical and forming properties of 99.95% pure, 1.02 mm thin, cold-rolled sheet. Uniaxial tension, biaxial tension and disc compression experiments are performed, the first two at multiple angles to the rolling direction of the sheet. The material is very ductile (uniform elongation ~30%), and exhibits significant plastic anisotropy (e.g., the R-values range from 1.2 in 45o to 2.5 in 90o). The results are used to calibrate the Yld2000-2D anisotropic yield function, with an exponent of 6 as Nb is BCC. They are also used to extract the hardening curve beyond the limit load in uniaxial tension. Deep-drawing experiments are performed using a die of 27.6 mm dia. and a punch of 25.4 mm dia. Blanks of various diameters are used. The successfully drawn cups exhibit significant earing. The experiments are simulated using Abaqus/Standard and shell elements. It is shown that a properly calibrated material model enables the numerical simulations to match the experiments.

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Plasticity and Formability of Annealed, Commercially-Pure Aluminum: Experiments and Modeling

Cited by 15 publications

References 73 publications

Flange Wrinkling in Deep-Drawing: Experiments, Simulations and a Reduced-Order Model

Flange Wrinkling in Deep-Drawing: Experiments, Simulations and a Reduced-Order Model

Transient Hardening and R-value Behavior in Two-step Tension and Loading Reversal for DP980 Sheet

Deep-Drawing of Commercially-Pure Niobium Sheet

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