Wang et al., 2016 - Google Patents
Investigations of fracture on DP980 steel sheet in roll forming processWang et al., 2016
- Document ID
- 2760042905626644816
- Author
- Wang H
- Yan Y
- Jia F
- Han F
- Publication year
- Publication venue
- Journal of Manufacturing Processes
External Links
Snippet
Advanced high strength steel (AHSS), especially dual phase steel, is widely used on modern automobiles to achieve high strength-to-weight ratios. Roll forming is one of the most widely used forming processes in the steel industry. In this study, roll forming process …
- 238000000034 method 0 title abstract description 66
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Wang et al. | Investigations of fracture on DP980 steel sheet in roll forming process | |
| Kim et al. | The shear fracture of dual-phase steel | |
| Liu et al. | Investigation of forming parameters on springback for ultra high strength steel considering Young’s modulus variation in cold roll forming | |
| Lim et al. | Time-dependent springback of advanced high strength steels | |
| Safdarian et al. | The effects of forming parameters on the cold roll forming of channel section | |
| Giglio et al. | Ductile fracture locus of Ti–6Al–4V titanium alloy | |
| Toros et al. | Formability and springback characterization of TRIP800 advanced high strength steel | |
| Tehrani et al. | Localised edge buckling in cold roll-forming of symmetric channel section | |
| Choi et al. | Advanced constitutive modeling of advanced high strength steel sheets for springback prediction after double stage U-draw bending | |
| Badr et al. | Applying a new constitutive model to analyse the springback behaviour of titanium in bending and roll forming | |
| Xue et al. | Experimental assessment of nonlinear elastic behaviour of dual-phase steels and application to springback prediction | |
| Zang et al. | Measurement of the Bauschinger behavior of sheet metals by three-point bending springback test with pre-strained strips | |
| Sumikawa et al. | Improvement of springback prediction accuracy using material model considering elastoplastic anisotropy and Bauschinger effect | |
| Bandyopadhyay et al. | Use of stress based forming limit diagram to predict formability in two-stage forming of tailor welded blanks | |
| Halkaci et al. | Enhancing formability in hydromechanical deep drawing process adding a shallow drawbead to the blank holder | |
| Mirfalah-Nasiri et al. | Forming limit curves analysis of aluminum alloy considering the through-thickness normal stress, anisotropic yield functions and strain rate | |
| Wang et al. | Experimental and theoretical investigations of the forming limit of 5754O aluminum alloy sheet under different combined loading paths | |
| Shan et al. | Prediction of martensitic transformation and deformation behavior in the TRIP steel sheet forming | |
| Chalal et al. | Springback of thick sheet AHSS subject to bending under tension | |
| Sun et al. | Longitudinal strain development in chain-die forming AHSS products: analytical modelling, finite element analysis and experimental verification | |
| WO2007088935A1 (en) | Breaking prediction method | |
| Zahedi et al. | Experimental determination and numerical prediction of necking and fracture forming limit curves of laminated Al/Cu sheets using a damage plasticity model | |
| Eller et al. | Determination of strain hardening parameters of tailor hardened boron steel up to high strains using inverse FEM optimization and strain field matching | |
| Yan et al. | The inverse parameter identification of Hill 48 yield criterion and its verification in press bending and roll forming process simulations | |
| Gaied et al. | Experimental and numerical assessment of tailor-welded blanks formability |