Radial Basis Functional Model of Multi-Point Dieless Forming Process for Springback Reduction and Compensation

Abebe, Misganaw; Yoon, Jong-Su; Kang, Beom-Soo

doi:10.3390/met7120528

Cited by 11 publications

(6 citation statements)

References 22 publications

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“…In Figure 4, B 0 represents the length of the rectangular section before deformation, B represents the length of the rectangular section after deformation, H 0 represents the height of the rectangular section before deformation, and H represents the height of the rectangular section after deformation. (B − B 0 )/B indicates the bulging rate, and (H − H 0 )/H indicates the depression rate [17,18]. e variation of depression rate and bulging rate with the bending angle and the type of bulging rate has been studied [19].…”

Section: Study On the Section Distortion Of Rectangular Profiles Durimentioning

confidence: 99%

“…erefore, a large amount of waste parts may be processed, resulting in an increase in cost [14][15][16]. So, exploring the variation law of cross-section distortion of aluminum profiles during three-dimensional stretch-bending has certain guiding significance for actual production [17][18][19]. is paper investigates the influence of the bending angle of the profile on the cross-section distortion and the variation law.…”

Section: Introductionmentioning

confidence: 99%

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Study on the Influence of Bending Angle of Multipoint Stretch-Bending of Profiles on Section Distortion of Parts

Liang

Liao

2020

Mathematical Problems in Engineering

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The ABAQUS finite element simulation software was used to simulate the flexible 3D multipoint stretch-bending (MPSB) forming process of aluminum profiles. The influence of bending angle on the section distortion was investigated. The results show that the type of rectangular section distortion during horizontal bending and vertical bending is different. The bulging rate and the depression rate increase with the increase in horizontal bending angles; when the vertical bending angle is less than 15°, the depression rate of the horizontally curved section is effectively reduced. When α is equal to 30°, β is less than 15° which can effectively reduce the depression rate caused by horizontal bending to the profile. When α is less than 30°, the depression rate which is caused by horizontal bending can be reduced through the vertical bending angle, with 5° than 15°; the vertical bending process changes the distortion pattern of the profile; the depression rate and the bulging rate increase with the increase of the vertical bending angle. Through the support vector regression and selecting the parameter group c = 1.5, g = 0.05, the distortion rate of different angles in the common range is further expanded, and the quality control curve is drawn by combining the test results and prediction results which determine the depression rate as 2%, 2.5%, and 3% processing boundary. Using this curve to predict the distortion rate of the profile is instructive in the actual processing.

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Section: Study On the Section Distortion Of Rectangular Profiles Durimentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Study on the Influence of Bending Angle of Multipoint Stretch-Bending of Profiles on Section Distortion of Parts

Liang

Liao

2020

Mathematical Problems in Engineering

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“…Among other things, they determine the conditions upon which necking is suppressed, so that failure in SPIF is by ductile fracture. Abebe et al [18] examine springback in multi-point dieless forming, especially in the context of reducing computational time. They propose to replace numerical simulations of springback with statistical analyses based on design of experiments.…”

Section: Sheet/tube Metal Formingmentioning

confidence: 99%

Advances in Plastic Forming of Metals

Lee

Korkolis

2018

Metals

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“…The FE model consists of An FE simulation of the forming process is performed via the Abaqus 6.14 platform. The explicit algorithm of Abaqus/explicit module fitted for dynamic and non-linear analysis is used to simulate the bending process and the implicit algorithm of Abaqus/standard module adapted to static and steady analysis is used for springback simulation [31]. The punch and support bodies are considered as rigid bodies in comparison with the deformable plate [32,33].…”

Section: Fe Simulation Modelmentioning

confidence: 99%

An Equivalent Calculation Method for Press-Braking Bending Analysis of Integral Panels

Zhang

Tian

et al. 2018

Metals

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Press-braking bending is widely applied in the manufacture of aircraft integral panels because of the advantages of strong adaptability to different contours, simplicity of bending tools, short manufacturing time and low process cost. However, a simulation of bending process requires long-time calculation and consumes extensive computational resources. Considering the factors that the original model (ORM) of an integral panel is large and the press-braking bending is used only for the local area of integral panels with heavy thickness in practice, an equivalent calculation method for press-braking bending analysis of integral panels is proposed. The local bending area of an integral panel is simplified to a model of plate in this method. An exponential strengthening model is used to derive the equations of stress, strain and forming radius of the ORM and its simplified model (SPM). Meanwhile, the equivalent parameters of the SPM are determined and deduced based on three principles: that the material begin to be yielded simultaneously, the ultimate stress of the ORM is the same as that of the SPM at the same punch displacement, and the forming radii of neutral surfaces of the ORM and the SPM are identical after springback. The distribution of the stress and strain determined by finite element (FE) simulations are compared, and the FE simulations indicate that the contour curve of the SPM is in fairly good agreement with the profile of the ORM under the same bending process parameters, and the maximum difference is 13.17%. The computational efficiency is increased by more than 48%. Therefore, the proposed approach is quite suitable for industrial applications to improve the bending quality and efficiency of integral panels.

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Radial Basis Functional Model of Multi-Point Dieless Forming Process for Springback Reduction and Compensation

Cited by 11 publications

References 22 publications

Study on the Influence of Bending Angle of Multipoint Stretch-Bending of Profiles on Section Distortion of Parts

Study on the Influence of Bending Angle of Multipoint Stretch-Bending of Profiles on Section Distortion of Parts

Advances in Plastic Forming of Metals

An Equivalent Calculation Method for Press-Braking Bending Analysis of Integral Panels

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