Springback Analysis for Warm Bending of Titanium Tube Based on Coupled Thermal-Mechanical Simulation

Li, Guangjun; He, Zirui; Ma, Jun; Yang, Haisheng; Li, Heng

doi:10.3390/ma14175044

Cited by 4 publications

(3 citation statements)

References 32 publications

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“…In some studies, variation characteristics of elastic modulus of titanium materials were considered, or modulus degradation effect was introduced [17]. However, this characteristic is not obvious in the actual Ti-6Al-4V tensile test.…”

Section: Calculation Of Springback Angle Of Warm Bending Of Titanium ...mentioning

confidence: 99%

Springback prediction model of Ti-6Al-4V tube warm bending based on modified JC model considering variable temperature field

Wang

Zhang

et al. 2022

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

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The plastic forming of titanium alloy tubes at room temperature exhibits strong anisotropy, low elongation, and large deformation resistance. Numerical control warm bending assisted forming technology can improve the stability of the titanium alloy tube bending process, increase the bending limit and reduce the springback angle. This technology promotes the wide application of high-precision titanium alloy bent tubes in many high-end fields such as aerospace, shipbuilding, chemical industry, and military industry. However, the titanium alloy tube bending at high temperatures involves complex material rheological behavior and microstructure characteristics. The coupling relationship between the stress-strain properties of the material and the temperature field makes it difficult to predict the springback behavior of titanium alloy tubes after warm bending. In this paper, based on the mechanical behavior of titanium alloy tubes at high temperatures, a constitutive model of titanium alloy suitable for local heating is improved. The theoretical model of springback for warm rotary draw bending of titanium alloy tube is established. The influence of warm bending strategies on the springback of bending is studied. The theoretical model is verified by establishing a thermal-mechanical coupling finite element model for the whole process of warm bending under the state of heat balance. The results show that the bending springback theory based on the modified John-Cook model can accurately simulate the temperature change of titanium alloy tube section, adapt to local heating strategies and provide high prediction accuracy of bending springback.

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Section: Calculation Of Springback Angle Of Warm Bending Of Titanium ...mentioning

confidence: 99%

Springback prediction model of Ti-6Al-4V tube warm bending based on modified JC model considering variable temperature field

Wang

Zhang

et al. 2022

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

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show abstract

“…They also completed cross profiles to be deeply drawn with various parameter settings and subsequently digitized them using a three-dimensional optical measurement system. Li et al 14 applied warm bending on a commercial thin-walled pure titanium tube to build a coupled thermal–mechanical finite element model of the heating/bending/unloading process to predict and verify springback behavior during warm bending. Their results offer a fundamental understanding of how springback behavior is affected by thermal and mechanical factors upon local-heat-assisted bending that may be useful for improving the forming accuracy of bent titanium tubular parts and structures.…”

Section: Introductionmentioning

confidence: 99%

Analysis of the punch motion curve for the springback of U-shaped sheet metal

Chen

Wang

et al. 2023

Advances in Mechanical Engineering

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Servo presses achieve high formability by using different punch motion curves, thereby increasing their applicability in conventional processing fields. In this study, the punch motion curves of servo presses were optimized, and the effects of punch motion curves on the springback of U-shaped sheet metal were explored. Subsequently, the optimal punch motion curve was determined, and the springback effect after processing was investigated. Different punch motion curves were proposed and simulated for comparison with the results of conventional methods, and the equivalent stress values obtained using different motion curves and mold angles were analyzed. DEFORM software was used to conduct simulations to determine the differences between processing methods. In addition, the spring-go, springback, load–stroke characteristics, and stress and strain distributions of U-shaped sheet metal were investigated. The conventional motion curve resulted in springback, stress, strain, and required processing force higher than those achieved by the curves proposed in this study. The smaller the movement difference in the motion curve of the servo press was, the lower the springback, stress, and strain were. These results indicate that the punch motion curves obtained for different types of processing can serve as a reference for selecting appropriate parameter values for servo presses.

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“…However, the high processing difficulty of titanium alloy tubes limits their application. Li et al [9] predicted the springback behavior at the heatingbending process for pure titanium tube based on the coupled thermal-mechanical FE model. Wei et al [10] applied magnetic abrasive finishing in the cold-rolled titanium alloy tubes aiming at the residual stress tailoring and service performance improvement.…”

Section: Introductionmentioning

confidence: 99%

Effect of Piercing Temperature on Stress—Strain Distribution and Dimensional Accuracy for Ti80 Titanium Alloy Seamless Tubes Based on Numerical Simulation

Zhou,

Fu,

et al. 2023

Metals

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Titanium alloy tubes were an ideal material to replace steel tubes. However, the relationship between piercing temperature and dimensional accuracy for titanium alloy seamless tubes was unclear. Therefore, the effects of piercing temperature on the stress—strain distribution and dimensional accuracy of Ti80 titanium alloy were studied using thermal simulation compression tests, finite element numerical analysis optimization and optical microscopy. Pierced at 1050 °C, Ti80 titanium alloy was cross-rolled and perforated to obtain a capillary tube, whose dimensional accuracy was better than that of those pierced at 850 °C and 950 °C. The microstructure of Ti80 seamless tubes was layered α-Ti, grain boundary β-Ti and a Widmannstatten structure. The tensile strength, yield strength and absorbed energy were 867 MPa, 692 MPa and 52 J, respectively.

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Springback Analysis for Warm Bending of Titanium Tube Based on Coupled Thermal-Mechanical Simulation

Cited by 4 publications

References 32 publications

Springback prediction model of Ti-6Al-4V tube warm bending based on modified JC model considering variable temperature field

Springback prediction model of Ti-6Al-4V tube warm bending based on modified JC model considering variable temperature field

Analysis of the punch motion curve for the springback of U-shaped sheet metal

Effect of Piercing Temperature on Stress—Strain Distribution and Dimensional Accuracy for Ti80 Titanium Alloy Seamless Tubes Based on Numerical Simulation

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