REFERENCES
- Venugopal, L.; Davidson, M.J.; Selvaraj, N. Effect of elevated temperatures on the formability of AA2014 thin-walled tube ends. Materials and Manufacturing Processes 2013, 28 (3), 319–323.
- Chan, L.C.; Kot, W.K.R. Determination of loading paths in warm hydroforming reinforced quadrilateral tubular components. Materials and Manufacturing Processes 2014, 29 (1), 32–36.
- Hamid, M.; Alireza, F.T.; Mohsen, B. An innovative approach for manufacturing of thin welded blanks and coils. Materials and Manufacturing Processes 2014, 29 (8), 889–893.
- Liu, J.W.; Liu, X.Y.; Yang, L.F.; Liang, H.P. Determination of flow stress of thin-walled tube based on digital speckle correlation method for hydroforming applications. International Journal of Advanced manufacturing Technology 2013, 69 (4), 439–450.
- Sokolowski, T.; Gerke, K.; Ahmetoglu, M.; Altan, T. Evaluation of tube formability and material characteristics: hydraulic bulge testing of tubes. Journal of Materials Processing Technology 2000, 98, 34–40.
- Yang, L.F.; Guo, C. Determination of stress–strain relationship of tubular material with hydraulic bulge test. Thin-Walled Structures 2008, 46, 147–154.
- Strano, M.; Altan, T. An inverse energy approach to determine the flow stress of tubular materials for hydroforming applications. Journal of Materials Processing Technology 2004, 146, 92–96.
- Hwang, Y.M.; Wang, C.W. Flow stress evaluation of zinc copper and carbon steel tubes by hydraulic bulge tests considering their anisotropy. Journal of Materials Processing Technology 2009, 209, 4423–4428.
- Boudeau, N.; Malécot, P. A simplified analytical model for post-processing experimental results from tube bulging test: Theory, experimentations, simulations. International Journal of Mechanical Sciences 2012, 65, 1–11.
- Chen, L.Y.; Yang, L.; Wu, J. Study on surface refactoring based on reverse engineering software-imageware. Applied Mechanics and Materials 2012, 215, 652–655.
- Jia, H.J.; Yang, L.F.; Liu, J.W. Establishment of stress-strain relationships of tailor-welded tubes via DIC method based on uniaxial tensile tests. Key Engineering Materials 2014, 611, 475–482.