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Banabic D., Formability of thin sheet metals, PhD Thesis, Technical Univ. of Cluj Napoca, 1993.

1. Siegert K., Ziegler M.C., Pulsating Blankholder Force, SAE Conf., 1997, 987-995.

2. Ziegler M.C., Schwingende Niederhalterkräfte und Regelkreise beim Tiefziehen axialsymmetrischer Blechformteile, Dissertation, IFU, Universität Stuttgart, 1999.


  1. Banabic D., Valasutean S., The effect of vibratory straining upon Forming Limit Diagrams, In: Journal of Materials Processing Technology, Elsevier, Amsterdam, Vol.34(1992), p.431-437.

1. Bleck, W., Deng Z., Papamantellos, K., Gusek, C.O., A comparative study of the forming limit diagram models for sheet steels, J.M.P.T., 83(1998), 223-230.

2. Ghoo, B.Y., Park S.W., Keum Y.T., New forming limit diagram of laser tailored blank, Journal of strain analysis, 36(2001), No. 2, p.143-152.


  1. Banabic D., Dorr I.R., Prediction of the Forming Limit Diagrams in pulsatory straining, Journal of Materials Processing Technology, Elsevier, Amsterdam, 45(1994), No.1-4, Sept., p.551-556.

1. Bleck, W., Deng Z., Papamantellos, K., Gusek, C.O., A comparative study of the forming limit diagram models for sheet steels, J.M.P.T., 83(1998), 223-230.

2. Ghoo, B.Y., Park S.W., Keum Y.T., New forming limit diagram of laser tailored blank, Journal of strain analysis, 36(2001), No. 2, p.143-152.

3. R. Narayanasamy, C. Sathiya Narayanan, Forming limit diagram for interstitial free steels supplied by Ford India Motors, Materials and Design 28 (2007) 16-35.

4. Narayanasamy, R., Ravi Chandran, M., Parthasarathi, N.L.Effect of annealing on formability of aluminium grade 19000, Materials and Design, Volume 29, Issue 8, 2008, Pages 1633-1653.

5. Dehghani, K., Shafiei M, A., Naeimi, H., Effect of thermomechanical processing on forming limit diagrams predicted by neural networks, Materials and Manufacturing Processes, Volume 23, Issue 8, October 2008, Pages 829-833.




  1. Banabic D., Tapalaga I., Review of the criteria for determination of the blank-holding forces in deep-drawing processes, Journal of Plastic Deformation, Sibiu, 1(1994), Nr.1, p.42-47.

1. Ziegler M.C., Schwingende Niederhalterkräfte und Regelkreise beim Tiefziehen axialsymmetrischer Blechformteile, Disertation, IFU, Universität Stuttgart, 1999.




  1. Banabic D., Forming limit diagrams predicted by using the new Hill's yield criterion, Proc. of the 3th Int. Conf. on Numerical Simulation of 3-D sheet forming processes “NUMISHEET’96", Dearborn- Michigan, 1996, p.240-245.




    1. Touchal-Mguil S., Une technique de correlation directe d`image numeriques: application a la determination de courbes limites de formage et proposition d´un critere de striction, These de Docteur, INSA Lyon, 1997.

    2. Morestin F., These de Docteur, INSA Lyon, 1998

    3. Habraken, A.M., Contributions to constitutive laws of metals: micro-macro and damage models, These d´agrege , Univ. Liege, 2000.

    4. Butuc M.C., Gracio J.J., Barata da Rocha A., A theoretical study on forming limit diagrams prediction, Journal of Material Processing Technology, 2003.

  1. Habraken A.M., Modelling the plastic anisotropy of metals, Archive of Computational Methods in Engineering, 11(2004), p.3-96.

  2. Grenier Jean-Christophe, Etude de l’endommagement pendant la mise en forme a froid de toles d’aluminium, These de docteur, INSA Lyon, 2004.

  3. Teixeira P., Butuc C., Santos A.D., Rocha A.B., Gracio J.J., Development of a modular FLD code and its application to FE simulation, Proc. of the 24th IDDRG Congress, Besancon, 2005, 27.1-20.10.

  4. Slota J., Spisak E., Comparison of the FLD for drawing quality steel sheets, Metallurgy(Zagreb), 44(2005), 249-253




  1. Banabic D., Sheet metal formability predicted by using the new (1993) Hill’s yield criterion, In: Advanced Methods in Materials Processing Defects (Studies in Applied Mechanics Serie, Vol. 45), (Editors: Predeleanu M., Gilormini P.), Elsevier Science, Amsterdam, 1997, p.257-265, ISBN 0-444-82271-2.




    1. Morestin F., XXX These de Docteur, INSA Lyon, 1998

    2. Habraken, A.M., Contributions to constitutive laws of metals: micro-macro and damage models, These d´agrege, Univ. Liege, 2000.

    3. Bressan, J.D., Relationship between the material parameters of normal anisotropy, r-value and m-value in sheet metal forming, In: Nonlinear mechanics of anisotropic materials, EUROMECH Conf., Liege, 2002, 17-24.

    4. Alves, J.L., Simulacio Numerica do processo de Estampagem de Chapas Metalicas, Diss de Doutoramente, Universidade de Minho, Guimaraes, 2003.

    5. Khalfallah A., Identification des lois de comportement elastoplastiques par essais inhomogenes et simulations numeriques, These de docteur, Monastir, Tunisie, 2004.

    6. Icandela O., Définition de protocoles rationnels d’identification de lois de comportement élastoplastiques : Application à la simulation éléments finis d’opérations industrielles d’emboutissage, These, Univ. de Savoie, 2006.




  1. Banabic D., Müller W., Pöhlandt K. Determination of yield loci from cross tensile tests assuming various kinds of yield criteria, In: Proc. of the IDDRG Biennial Congress, Bruxelles, 1998, p. 343-349.




  1. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 40(1999), 768-779.

  2. Butuc M.C., Forming Limit Diagrams. Definition of plastic instability criteria, University of Porto, Portugal, 2004.

  3. P. Koc, B. Stok, Computer-aided identification of the yield curve of a sheet metal after onset of necking, Computational Materials Science 31 (2004) 155–168.




    1. Banabic D., Müller W., Pöhlandt K. Experimental determination of yield loci for sheet metals, First Conf. ESAFORM ’98, Sophia Antipolis, France, p. 179-182.

1. Vegter H., An Y., Pijlman H.H., Huetink J., Different approaches to describe the plastic material behaviour of steel and aluminium alloys in sheet forming, In: 2th ESAFORM Conf., Guimaraes, 1999,

2. Grewolls G., Kreissig R., Anisotropic hardening-numerical application of a cubic yield theory and consideration of variable r-values for sheet metals, European J. of Mechanics/Solids, 20(2001), 585-599.

3. C.H.L.J. ten Horn, H. Vegter., M. El Mouatassim, Increased accuracy in forming simulation of complex Renault part through Corus-Vegter material model, Proc. COMPLAS 2005 Conf., Barcelona, 2005.

4. Kim, I., Einfluß des Spannungszustandes während des hydraulischen Tiefungsversuchs auf das Umformverhalten von Blechwerkstoffen, Dissertation, RWTH Aachen, 2002.

5. Geiger M, G. van der Heyd, M. Merklein and W. Hußnätter, Novel Concept of Experimental Setup for Characterisation of Plastic Yielding of Sheet Metal at Elevated Temperatures, Advanced Materials Research Vols. 6-8 (2005) pp. 657-664.

6. Shi, Y., Wu., J., Development and the applications of anisotropic yield criterions, Forging & Stamping Technology, 2006, p.99-103.



  1. Banabic D., Müller W., Pöhlandt K. , Comments on the Hill’s yield criteria, 2th International Conference on Industrial Tools, April 1999, Maribor, p. 79-84.

1. Kim, I., Einfluß des Spannungszustandes während des hydraulischen Tiefungsversuchs auf das Umformverhalten von Blechwerkstoffen, Dissertation, RWTH Aachen, 2002.




  1. Banabic D., Müller W., Pöhlandt K., Anisotropic Yield Surfaces and Forming Limits of Sheet Metals, The Fourth Int. Conference and Workshop on Numerical Simulation of 3D Sheet Forming Processes "NUMISHEET'99", Besancon, 1999, p.419-424.




    1. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 41(2000), 806-819.

    2. Lestriez P., Prediction de striction localise par l´analyse lineare de stabilite: application au critere de plasticite de Banabic, Rapport de DEA, Universite Franche-Compte, Besancon, 2000.

    3. Geng L., Wagoner R., Role of plastic anisotropy and its evolution on springback, Int. J. Mech. Sci., 44(2002), 123-148.

    4. Lejeune A., Modelisation et simulation des defauts d´aspect lors l´un procede de mise en forme, These de Docteur, Universite Franche Compte, Besancon, 2002.

5. C. Arwidson, Numerical Simulation of Sheet Metal Forming for High Strenght Steels, Licentiate Thesis, Lulea University, 2005.

6. C. Arwidson, L. Bernspång, A. Kaplan, Verification of Forming Simulation of HSS, Lulea University, 2005.



7. C. Arwidson, L. Bernspång, A. Kaplan, Verification of material models for forming and spring-back of high strength steels, Lulea University, 2005.


  1. Banabic D., Balan T., Pöhlandt K., Analitical and experimental investigation on anisotropic yield criteria, The 6th Int. Conf. on Technology of Plasticity "ICTP'99", Nuremberg, 1999, p.1411-1416.




  1. Aretz H., Modellierung des anisotropen Materialverhaltens von Blechen mit Hilfe de Finite-Elemente-Methode, Dissertation D82 RWTH Aachen, Shaker Verlag, Aachen, 2003.

  2. Boscher D., Gaspérini M., Strain distribution and plastic localization during bending of metal-rubber profiles, Rev. Met. Paris, N°9 (September 2003), pp. 835-842.

  3. Heath A., Berücksichtigung der Werkstoffanisotropie im Simulationsprogram PAM-STAMP, In: Workshop „Simulation in der Umformtechnik.: Anisotropie in der Blech-und Kaltmassivumformung“, ISD, Stuttgart, 25 März 2004, p.7.1-7.39.

  4. Butuc M.C., Forming Limit Diagrams. Definition of plastic instability criteria, PhD thesis, University of Porto, Portugal, 2004.

  5. C.H.L.J. ten Horn, H. Vegter., M. El Mouatassim, Increased accuracy in forming simulation of complex Renault part through Corus-Vegter material model, Proc. COMPLAS 2005 Conf., Barcelona, 2005.

  6. J.P. Abrantes Simulacio numerica via finites elementos da conformacao da chapas por pressao hidraulica, Proc. ABCM 2003, 1-11.

  7. Icandela O., Définition de protocoles rationnels d’identification de lois de comportement élastoplastiques : Application à la simulation éléments finis d’opérations industrielles d’emboutissage, These, Univ. de Savoie, 2006.




  1. Banabic D., Limit strains in the sheet metals by using the 1993 Hill's yield criterion, J. of Materials Processing Technologies, 92-93(1999), p.429-432.




  1. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 41(2000), 806-819.

  2. Subramanian K.R., A study of theoretical investigations on sheet metal forming and upsetting of powder metallurgy performs, PhD Thesis, Bharathidasan University, Tiruchirappalli, India, 2002.

  3. Lin W.C., Study of size effect of the grid dimension in sheet metal forming, PhD thesis, National Cheng Kung University, Taiwan, 2002.

  4. Xie, H; Yang, X; Cheng, A; Li, G; Zhong, Z., Optimization of binder force during computer simulation of sheet metal forming, China Mechanical Engineering, 13(2002), p.1910-1914.

  5. Butuc M.C., Forming Limit Diagrams. Definition of plastic instability criteria, University of Porto, Portugal, 2004.

  6. Li W., Li D.Y., Determination of the yield locus using a Kelvin probing method, J. Phys. D: Appl. Phys. 37(2004), 948-951.

  7. Lui J.-C., Study on forming limit tubes, Master Thesis, Taiwan, 2004

  8. Li W., Y. Wang, and D. Y. Li, Response of the electron work function to deformation and yielding behavior of copper under different stress states, Phys. Stat. Sol. (a) 201, (2004) No. 9, 2005–2012.

  9. Automobile Technology & Material, 6(2004), p.75-77.

  10. Lin J.C., Study on Forming Limit of Tubes, Thesis, National Sun Yat Sen Univ., Taiwan, 2005.

  11. HAN Fei, WAN Min ,WU Xiang Dong, Theoretical and experimental investigation progress on the forming limit of sheet metal forming, Journal of Plasticity Engineering, 2006, p.80-86.

  12. Journal of Hunan University (Naturnal Science), 32(2005), p.17-20.

  13. Wang L., Lee T.C., The effect of yield criteria on the forming limit curve prediction and the deep drawing process simulation, Int. Journal of Machine Tools and Manufacturing, 46 (2006) 988–995

  14. R. Narayanasamy, C. Sathiya Narayanan, Formability of HSLA and EDDQ steel, In: Innovating the Future Through Manufacturing (Eds. V. Shanmuganathan, K. Raja, P. Kuppan), Narosa, Delhi,2005, 296-302.

  15. SU Yu, FU Ren-yu, LI Lin, YE Ping, Fracture Mechanism of Low Carbon TRIP Steel with Si, Journal of Shanghai University (Natural Science), 12(2006), p.423-427.

  16. R. Narayanasamy, C. Sathiya Narayanan, Forming limit diagram for interstitial free steels supplied by Ford India Motors, Materials and Design 28 (2007) 16-35

  17. R. Narayanasamy, M. Ravichandran, N.L. Parthasarathi, Effect of annealing on formability of aluminium grade 19000, Materials and Design 28 (2007)

  18. S. Mishra, K. Narasimhan and I. Samajdar, Deformation twinning in AISI 316L austenitic stainless steel: role of strain and strain path, Materials Science and Technology, 23(2007), 1118-1126.

  19. Yu. H., Gao. Y., Study on Forming Limit Diagram for Transformation-induced Plasticity Sheet Steel Based on M-K Model, China Mechanical Engineering, 18(2007), 109-113.



  1. Banabic D., a.o., Experimental validation of a new anisotropic yield criterion, The 3th ESAFORM Conf., Stuttgart, 2000, p. VI.39-VI.43.




  1. Lestriez P., Prediction de striction localise par l´analyse lineare de stabilite: application au critere de plasticite de Banabic, Rapport de DEA, Universite Franche-Compte, Besancon, 2000.

  2. Knockaert R., Etude experimentale et numerique de la localisation de la deformation lors de la mise en forme de produits minces, These de Docteur, CEMEF, Sophia Antipolis, 2001.

  3. Geng L., Wagoner R., Role of plastic anisotropy and its evolution on springback, Int. J. Mech. Sci., 44(2002), 123-148.

  4. Delameziere, A., Contribution à l'optimisation des paramètres du procédé d'emboutissage des tôles minces par l'approche inverse, These de doctorat, Univ. de Technologie de Compiegne, France, 2002.

  5. Poehlandt K., Tekkaya A.E., Schoeck J., Concepts for characterizing plastic anisotropy of sheet metal, , Proc. of the 24th IDDRG Congress, Besancon, 2005, 20.1-20.16.




    1. Banabic D., Kuwabara T, Balan T., Experimental validation of some anisotropic yield criteria, The 7th Conference „TPR2000“, Cluj Napoca, 2000, 109-116.




  1. Lestriez P., Prediction de striction localise par l´analyse lineare de stabilite: application au critere de plasticite de Banabic, Rapport de DEA, Universite Franche-Compte, Besancon, 2000.

  2. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 42(2001), 801-811.

  3. Geng L., Wagoner R., Role of plastic anisotropy and its evolution on springback, Int. J. Mech. Sci., 44(2002), 123-148.




    1. Banabic D., Comsa D., Balan T. A new yield criterion for orthotropic sheet metals under plane–stress conditions, The 7th Conference „TPR2000“, Cluj Napoca, 2000, p.217-224.




  1. Boudeau N., Lejeune A., Gelin J.C., Damage in sheet metal forming: Prediction of necking phenomenon, In: Numerical modelling in damage mechanics, Ed. Saanouni K., Hermes, Paris, 2001, p.147-165.

  2. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 42(2001), 801-811.

  3. Butuc, M.C., Gracio J.J., Barata da Rocha A., A theoretical study on forming limits diagrams prediction during complex strain paths, Int. J. Plasticity, 2003.

  4. Butuc M.C., Gracio J.J., Barata da Rocha A., A theoretical study on forming limit diagrams prediction, Journal of Material Processing Technology, 2003.

  5. Alves, J.L., Simulacio Numerica do processo de Estampagem de Chapas Metalicas, Diss de Doutoramente, Universidade de Minho, Guimaraes, 2003.

  6. Boscher D., Gaspérini M., Strain distribution and plastic localization during bending of metal-rubber profiles, Rev. Met. Paris, N°9 (September 2003), pp. 835-842.

  7. Aretz H., Applications of a new plane stress yield function to orthotropic steel and aluminium sheet metals, Modelling. Simul. Mater. Sci. Eng., 12(2004), pp. 491-509.

  8. Legarth B.N., Kuroda M., Particle debonding using different yield criteria, European Journal of Mechanics, A/Solids, 23(2004), p. 737-751.

  9. Butuc M.C., Forming Limit Diagrams. Definition of plastic instability criteria, PhD Thesis, University of Porto, Portugal, 2004.

  10. Habraken A.M., Modelling the plastic anisotropy of metals, Archive of Computational Methods in Engineering, 11(2004), p3-96.

  11. Mattiasson K., Sigvant M., On the choice of the yield criterion for industrial sheet forming simulations, Proc. of the 24th IDDRG Congress, Besancon, 2005, 18.1-18.10.

  12. Aretz H., A non-quadratic plane stress yield function for orthotrotopic sheet metals, Journal of Materials Processing Technology, 168(2005), 1-9.

  13. Krasovskyy, A. Verbesserte Vorhersage der Rückfederung bei der Blechumformung durch weiterentwickelte Werkstoffmodelle, Diss., Universität Karlsruhe, 2005.

  14. Hu W., Constitutive modeling of orthotropic sheet metals by presenting hardening-induced anisotropy, IJP, 2007, 620-639.

  15. Mattiasson, K., Sigvant M., An evaluation of some recent yield criteria for industrial simulations of sheet forming processes, International Journal of Mechanical Sciences, 50(2008), p.774-787.

  16. Cai, W.W., Carsley, J.E., Hayden, D.B., Hector Jr., L.G, Stoughton, T.B., Estimation of metal hardening models at large strains, Proceedings of the ASME International Manufacturing Science and Engineering Conference 2007, MSEC2007, p.935-942.

  17. S. Ahmadia, A.R. Eivani and A. Akbarzadeh, An experimental and theoretical study on the prediction of forming limit diagrams using new BBC yield criteria and M–K analysis, Computational Materials Science, (2009)



    1. Banabic D., a.o., Some comments on a new anisotropic yield criterion, The 7th Conference „TPR2000“, Cluj Napoca, 2000, p. 93-100.

1. Sheet metal press forming, Journal of the Japan Society for Tehnology of Plasticity, 42(2001), 801-811.




  1. Banabic D., Boudeau D., Gelin J.C., Prediction of sheet necking from two theoretical approach, The 7th Conference „TPR2000“, Cluj Napoca, 2000, p. 101-108.




  1. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 42(2001), 801-811.

  2. Boudeau N., Lejeune A., Gelin J.C., Damage in sheet metal forming: Prediction of necking phenomenon, In: Numerical modelling in damage mechanics, Ed. Saanouni K., Hermes, Paris, 2001, p.147-165.

22. Banabic D., Balan T., Comsa D., Müller, W., Pöhlandt, K., Experimental validation of the new yield criterion The 3th ESAFORM Int. Conf. on Material Forming, Stuttgart, 2000, p.39-42.




    1. Alves, J.L., Simulacio Numerica do processo de Estampagem de Chapas Metalicas, Diss de Doutoramente, Universidade de Minho, Guimaraes, 2003.

23. Banabic D., a.o., Proposal for a new anisotropic yield criterion, The IDDRG Congress, Ann Arbor, Michigan, 2000, p.229-233.




  1. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 42(2001), 801-811.

  2. Geng L., Wagoner R., Role of plastic anisotropy and its evolution on springback, Int. J. Mech. Sci., 44(2002), 123-148.

24. Banabic D., Balan T., Comsa D., Yield criterion for orthotropic sheet metals, The 8th Int. Conf. Metal Forming 2000, Krakow, 2000, p.755-761.


1. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 42(2001), 801-811.

2. An, Y.G., Vegter, H., Elliott, L., Bottema, J., A comparison of yield loci derived from different approaches for aluminium alloys, Aluminium, 80(2004), Nr. 6., p.676-679.


25 Banabic D., Comsa D.S., Boscher D., Wagner S., Siegert K., Anisotropic behaviour of AA3003-0 aluminium alloy, 4th international ESAFORM Conference on Material Forming, 2001, Liège, Belgique, Vol. 1, p. 297-300.


      1. Delameziere, A., Contribution à l'optimisation des paramètres du procédé d'emboutissage des tôles minces par l'approche inverse, These de doctorat, Univ. de Technologie de Compiegne, France, 2002.

      2. Boscher D., Gaspérini M., Strain distribution and plastic localization during bending of metal-rubber profiles, Rev. Met. Paris, N°9 (September 2003), pp. 835-842.

      3. Boscher D., Modelisation mecanique et simulation numerique de la mise en forme de bimateriaux metal-elastomere utilises dans la fabrication des coulisses des vitres pour automobile, These de doctorat, Univ. Paris 13, Villetaneuse, 2003.

26. Banabic D., Dannenmann E. The influence of the yield locus shape on the limits strains, J. of Materials Proc. Techn., Elsevier, Amsterdam, 109(2001), p.9-12.


1. Van den Boogaard, Thermally enhanced forming of aluminium sheet, PhD Thesis, Twente University, 2002.

  1. Lejeune A., Modelisation et simulation des defauts d´aspect lors l´un procede de mise en forme, These de Docteur, Universite Franche Compte, Besancon, 2002.

  2. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 43(2002), 736-747.

  3. Subramanian K.R., A study of theoretical investigations on sheet metal forming and upsetting of powder metallurgy performs, PhD Thesis, Bharathidasan University, Tiruchirappalli, India, 2002.

  4. Avila A., Vieira E., Forming limit diagram predictions: yield criteria studies, Communications in Numerical Methods in Engineering, 19(2003), p.223-232.

  5. Aretz H., A non-quadratic plane stress yield function for orthotrotopic sheet metals, Modelling and Simulation in Material Science and Engineering, 12(2004), 491-509.

  6. Aretz H., Numerical restrictions of the modified maximum force criterion for prediction of forming limits in sheet metal forming, Modelling. Simul. Mater. Sci. Eng., 12(2004), pp.

  7. Butuc M.C., Forming Limit Diagrams. Definition of plastic instability criteria, University of Porto, Portugal, 2004.

  8. Grenier Jean-Christophe, etude de l’endommagement pendant la mise en forme a froid de toles d’aluminium, These de docteur, INSA Lyon, 2004.

  9. Automobile Technology & Material, 6(2004), p.75-77.

  10. Wang L., Lee T.C., The effect of yield criteria on the forming limit curve prediction and the deep drawing process simulation, Int. Journal of Machine Tools and Manufacturing, 46 (2006) 988–995

  11. Ben Tahar Mehdi, Contribution a l’etude et la simulation du procede d’hydroformage, These, CEMEF, Ecole des Mines de Paris, 2005.

  12. Vahl M., Beitrag zur gezeilten Beeinflussung des Werkstofflusses beim Innenhochdruckumformen von Blechen, Erlanger Nurberg Universitaet, Meisenbach Verlag, Bamberg, 2005 (ISBN 3-87525-224-1).

  13. Slota S., Spisak E., Comparison of FLD models for drawing quality steel sheets, Metallurgy (Zagreb), 44(2005), 249-255.

  14. H Fatmaoui, R Mesrar, J Chaoufi, Influence des parametres rheologiques sur les limites de formage des toles minces, Mecanique and Industries 7(2006), 497–503.

  15. Ganjiani, M., Assempour, A., An improved analytical approach for determination of forming limit diagrams considering the effects of yield functions, Journal of Materials Processing Technology 182 (2007) 598–607.

  16. Ganjiani, M.; Assempour, A., Implementation of a Robust Algorithm for Prediction of Forming Limit Diagrams, Journal of Materials Engineering and Performance, 1(2007), 1-6.

  17. O.-G. Lademo, K.O. Pedersen, T. Berstad, T. Furu and O.S. Hopperstad, An experimental and numerical study on the formability of textured AlZnMg alloys, European Journal of Mechanics - A/Solids, 2008, p.116-140.

  18. K.O. Pedersen, O.-G. Lademo, T. Berstad, T. Furu, O.S. Hopperstad, Influence of texture and grain structure on strain localisation and formability for AlMgSi alloys, JMPT, 2008, 77-93.

  19. Aretz, H., A simple isotropic-distortional hardening model and its application in elasticplastic analysis of localized necking in orthotropic sheet metals, International Journal of Plasticity, 2008, p. 1457–1480.

  20. Yu. H., Gao. Y., Study on Forming Limit Diagram for Transformation-induced Plasticity Sheet Steel Based on M-K Model, China Mechanical Engineering, 18(2007), p.109-113.

  21. Zhang, C., Leotoing L., Guines D., Ragneau E., Theoretical and numerical study of strain rate influence on AA5083 formability, JMPT, (2009).

  22. Fyllingen, Ø., Hopperstad, O.S., Lademo, O.-G., Langseth, M., Estimation of forming limit diagrams by the use of the finite element method and Monte Carlo simulation, Computers and Structures, Volume 87, Issue 1-2, January 2009, Pages 128-139.

27. Banabic D., Balan T., Comsa D.S., Closed-form solution for bulging through elliptical dies, J. of Materials Proc. Techn., Elsevier, Amsterdam, 115(2001), p.83-86.




  1. Sheet metal press forming, Journal of the Japan Society for Technology of Plasticity, 43(2002), 736-747.

  2. Siegert, K., Jäger S., Vulcan M., Pneumatic bulging of magnesium AZ31 sheet metals at elevated temperatures, CIRP Annales, 52(2003), p.241-244.

  3. Abrinia, K., Darvish R., Biglari F.R., An analysis of axysimetric hydrostatic bulging, University of Tehran, Iran, 2003.

  4. Vulcan, M, Siegert, K., FLD of a superplastic formable AA5083 aluminiu alloy, TMS 2004 Conference, Charlotte, NC, March 2004, pp.351-361.

  5. Celeghini M., Wirkmedienbasierte Blechumformung: Grundlagenunteschung zum Einfluss von Werkstoff und Bauteilgeometrie, Erlangen-Nurnberg Universitaet, 2004(ISBN 3-87525-207-1).

  6. Geiger M., Merklein M., Tolazzi M., Sheet hydroforming: analytical modelling and experimental verification of complex structures, Production Engineering, 12(2005), 69-72.

  7. Khraisheh,M., Modeling of Anisotropic Deformation in Superplastic Sheet Metal Stretching, ASME 2005

  8. Abu-Farha F.K., N.A. Rawashdeh, M.K. Khraisheh, Superplastic Deformation of Magnesium Alloy AZ31 Under Biaxial Loading Condition, Materials Science Forum, Vols. 551-552 (2007), 219-224.

  9. L. M. Smith, Y. Hadad, R. Thotakura, S. Gunala, S. Manthipragada, Flow Stress Curves Using New Volume Measurement Method For Hydraulic Bulge Test, in: Proceedings of the 9th International Conference on Numerical Methods in Industrial Forming Processes-NUMIFORM 2007, p.637-643.

  10. Vulcan M., Der pneumatische Tiefungsversuch und seine Anwendung in der superplastischen Aluminium-Blechumformung, DGM Informationsgesellschaft Verlag, Frankfurt, 2007 (ISBN 3-88355-356-5).

  11. F.K. Abu-Farha, N.A. Shuaib, M.K. Khraisheh, Limiting strains of sheet metals obtained by pneumatic stretching at elevated temperatures, CIRP Annals, 2008.




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